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Foundry Management InformationBase Reference
4980 Great America ParkwaySanta Clara, CA 95054
Tel 408.207.1700
www.foundrynetworks.com
April 2008
Copyright © 2008 Foundry Networks, Inc. All rights reserved.
No part of this work may be reproduced in any form or by any means – graphic, electronic or mechanical, including photocopying, recording, taping or storage in an information retrieval system – without prior written permission of the copyright owner.
The trademarks, logos and service marks ("Marks") displayed herein are the property of Foundry or other third parties. You are not permitted to use these Marks without the prior written consent of Foundry or such appropriate third party.
Foundry Networks, BigIron, FastIron, IronView, JetCore, NetIron, ServerIron, TurboIron, IronWare, EdgeIron, IronPoint the Iron family of marks and the Foundry Logo are trademarks or registered trademarks of Foundry Networks, Inc. in the United States and other countries.
F-Secure is a trademark of F-Secure Corporation. All other trademarks mentioned in this document are the property of their respective owners.
Contents
CHAPTER 1GETTING STARTED...................................................................................... 1-1AUDIENCE ..................................................................................................................................................1-1NOMENCLATURE .........................................................................................................................................1-1RELATED PUBLICATIONS .............................................................................................................................1-1UPDATES TO THIS MANUAL .........................................................................................................................1-2HOW TO GET HELP OR REPORT ERRORS ....................................................................................................1-2
WEB ACCESS .......................................................................................................................................1-2EMAIL ACCESS .....................................................................................................................................1-2TELEPHONE ACCESS ............................................................................................................................1-2
WARRANTY COVERAGE ...............................................................................................................................1-3
CHAPTER 2OVERVIEW OF THE FOUNDRY MIB............................................................... 2-1OBTAINING AND INSTALLING THE FOUNDRY MIBS ........................................................................................2-2
OBTAINING THE MIB FROM THE PRODUCT CD ......................................................................................2-2DOWNLOADING THE MIB FROM FOUNDRY NETWORKS WEB SITE ...........................................................2-2DOWNLOADING THE MIB FROM FOUNDRY NETWORKS FTP SITE ...........................................................2-2IMPORTING FOUNDRY MIB INTO A UNIX ENVIRONMENT ........................................................................2-2RELOADING MIBS INTO A HP ENVIRONMENT .........................................................................................2-3
STANDARD OBJECTS ..................................................................................................................................2-3PROPRIETARY OBJECTS ..............................................................................................................................2-3STRUCTURE OF THIS GUIDE ......................................................................................................................2-10ABOUT SNMPV3 SUPPORT ON ENTERPRISE SOFTWARE RELEASES ...........................................................2-10
CHAPTER 3SUPPORTED STANDARD MIBS .................................................................... 3-1SUPPORTED ON MULTI-SERVICE IRONWARE NETIRON XMR
AND NETIRON MLX DEVICES ................................................................................................................3-1SUPPORTED ON FASTIRON X SERIES IPV6 DEVICES ....................................................................................3-1
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SUPPORTED ON BIGIRON AND FASTIRON X SERIES DEVICES .......................................................................3-1SUPPORTED ON TERATHON DEVICES ..........................................................................................................3-2SUPPORTED ON THE FASTIRON EDGE SWITCH ............................................................................................3-3PARTIALLY SUPPORTED STANDARDS ...........................................................................................................3-3LLDP/LLDP-MED MIB SUPPORT ...............................................................................................................3-4RFC 1213: MANAGEMENT INFORMATION BASE (MIB-II) ..............................................................................3-4RFC 1493: DEFINITIONS OF MANAGED OBJECTS FOR BRIDGES ...................................................................3-7RFC 1643: ETHERNET-LIKE INTERFACE TYPES ...........................................................................................3-8RFC 1742: APPLETALK MANAGEMENT INFORMATION BASE II ......................................................................3-8RFC 1757: REMOTE NETWORK MONITORING MANAGEMENT INFORMATION BASE .........................................3-9RFC 2096: IP FORWARDING TABLE MIB ....................................................................................................3-9RFC 2233: THE INTERFACES GROUP MIB USING SMIV2 ...........................................................................3-10RFC 2515: DEFINITIONS OF TEXTUAL CONVENTIONS AND OBJECT IDENTITIES FOR ATM MANAGEMENT ......3-11RFC 2674: DEFINITIONS OF MANAGED OBJECTS FOR BRIDGES WITH
TRAFFIC CLASSES, MULTICAST FILTERING AND VIRTUAL LAN EXTENSIONS ..........................................3-11RFC 2932 IPV4 MULTICAST ROUTING MIB ...............................................................................................3-11
IPMROUTETABLE (IP MULTICAST ROUTE TABLE) ..................................................................................3-12IPMROUTENEXTHOPTABLE (IP MULTICAST NEXT HOP TABLE) ..............................................................3-12IPMROUTEINTERFACETABLE (IP MULTICAST ROUTE TABLE FOR INTERFACES) .......................................3-13IP MULTICAST SCOPE BOUNDARY TABLE ............................................................................................3-13IPMROUTESCOPENAMETABLE (IP MULTICAST SCOPE GROUP NAME TABLE) ..........................................3-13
RFC 2933 IGMP MIB ..............................................................................................................................3-13IGMPINTERFACETABLE (IGMP INTERFACE TABLE) ...............................................................................3-14IGMPCACHETABLE (IGMP CACHE TABLE) ..........................................................................................3-14
RFC 2934 PIM MIB FOR IPV4 .................................................................................................................3-15PIMINTERFACETABLE (PIM INTERFACE TABLE) ...................................................................................3-15PIMNEIGHBORTABLE (PIM NEIGHBOR TABLE) ....................................................................................3-15PIMIPMROUTETABLE (PIM IP MULTICAST ROUTE TABLE) ...................................................................3-15PIMIPMROUTENEXTHOPTABLE (PIM NEXT HOP TABLE) .....................................................................3-16PIMRPTABLE (PIM RP TABLE) ...........................................................................................................3-16PIMRPSETTABLE (PIM RP SET TABLE) .............................................................................................3-17PIMCANDIDATERPTABLE (PIM CANDIDATE-RP TABLE) .......................................................................3-17PIMCOMPONENTTABLE (PIM COMPONENT TABLE) ..............................................................................3-17
RFC 3176: INMON CORPORATION’S SFLOW: A METHOD FOR MONITORING TRAFFIC IN SWITCHED AND ROUTED NETWORKS. ...........................................................3-18
RFC 3815: MANAGED OBJECTS FOR THE MULTIPROTOCOL LABEL SWITCHING
(MPLS) AND LABEL DISTRIBUTION PROTOCOL (LDP) ..........................................................................3-19MPLSLDPLSR OBJECTS .....................................................................................................................3-19MPLSLDPENTITY OBJECTS ..................................................................................................................3-19MPLSLDPENTITY TABLE ......................................................................................................................3-19MPLSLDPENTITYSTATS TABLE ............................................................................................................3-21MPLSLDPSESSION OBJECTS ...............................................................................................................3-21MPLSLDPPEER TABLE ........................................................................................................................3-22MPLSLDPSESSION TABLE ...................................................................................................................3-22MPLSLDPSESSIONSTATS TABLE ..........................................................................................................3-23MPLSLDPHELLOADJACENCY TABLE .....................................................................................................3-23
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MPLSFEC OBJECTS ............................................................................................................................3-23MPLSFEC TABLE .................................................................................................................................3-23MPLSLDPSESSIONPEERADDR TABLE ..................................................................................................3-24
RFC 4273: DEFINITIONS OF MANAGED OBJECTS FOR BGP-4 ....................................................................3-24RFC 4444: MANAGEMENT INFORMATION BASE FOR INTERMEDIATE
SYSTEM TO INTERMEDIATE SYSTEM (IS-IS) ........................................................................................3-25SCALAR ISISSYSOBJECT .....................................................................................................................3-26SUPPORTED TABLES ...........................................................................................................................3-26NOTIFICATIONS ..................................................................................................................................3-27
PSEUDO WIRE MIB ..................................................................................................................................3-28DRAFT-IETF-PWE3-PW-MIB-11.TXT ......................................................................................................3-28SUPPORTED OBJECTS IN DRAFT-IETF-PWE3-PW-MIB-06.TXT ................................................................3-29
MPLS/BGP L3 VPN MIB ........................................................................................................................3-31VPN INTERFACE CONFIGURATION TABLE ............................................................................................3-31VRF CONFIGURATION TABLE ..............................................................................................................3-32VRF ROUTE TARGET TABLE ...............................................................................................................3-33VRF SECURITY TABLE .......................................................................................................................3-33VRF PERFORMANCE TABLE ...............................................................................................................3-33VRF ROUTING TABLE .........................................................................................................................3-34
CHAPTER 4REGISTRATION............................................................................................ 4-1
CHAPTER 5PHYSICAL PROPERTIES OF A DEVICE........................................................... 5-1COMMON OBJECTS .....................................................................................................................................5-1
POWER SUPPLY ...................................................................................................................................5-1FAN .....................................................................................................................................................5-1BOARDS ..............................................................................................................................................5-3CHASSIS NUMBER ................................................................................................................................5-6AGENT BOARD TABLE ..........................................................................................................................5-6AGENT TEMPERATURE TABLE (SNAGENTTEMP TABLE) ........................................................................5-13CONFIGURED MODULE TABLE .............................................................................................................5-14REDUNDANT MODULES .......................................................................................................................5-18
STACKABLE PRODUCTS .............................................................................................................................5-20BOARDS ............................................................................................................................................5-21LEDS ................................................................................................................................................5-22
CHASSIS PRODUCTS .................................................................................................................................5-24GENERAL CHASSIS .............................................................................................................................5-24POWER SUPPLY TABLE ......................................................................................................................5-25FAN TABLE ........................................................................................................................................5-25TEMPERATURE ...................................................................................................................................5-26FLASH CARD ......................................................................................................................................5-27
OPTICAL MONITORING MIB OBJECTS ........................................................................................................5-28
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CHAPTER 6BASIC CONFIGURATION AND MANAGEMENT................................................. 6-1SOFTWARE IMAGE ......................................................................................................................................6-1
RELOAD ..............................................................................................................................................6-2NVRAM ..............................................................................................................................................6-2
CONFIGURATION NOTES ON SNAGERASENVRAM AND SNAGWRITENVRAM.................................. 6-3FILE DOWNLOAD AND UPLOAD ..............................................................................................................6-4SOFTWARE IMAGE DETAILS ..................................................................................................................6-9BOOT SEQUENCE TABLE ....................................................................................................................6-12
SOFTWARE CONFIGURATION .....................................................................................................................6-13SWITCH IP CONFIGURATIONS .............................................................................................................6-13AGENT SYSTEM PARAMETERS CONFIGURATION TABLE ........................................................................6-13SWITCH GROUP CONFIGURATION ........................................................................................................6-15SWITCH CONFIGURATION SUMMARY GROUP .......................................................................................6-20DNS GROUP (IPV4) ...........................................................................................................................6-20DNS ADDRESS TABLE (FASTIRON X SERIES IPV6 DEVICES) ...............................................................6-20DOMAIN NAME SERVER TABLE (FASTIRON X SERIES IPV6 DEVICES) ...................................................6-21DHCP GATEWAY LIST TABLE .............................................................................................................6-22NTP GENERAL GROUP ......................................................................................................................6-24NTP SERVER TABLE (IPV4) ...............................................................................................................6-26SNTP SERVER TABLE (FASTIRON X SERIES IPV6 DEVICES) ...............................................................6-27BANNERS ...........................................................................................................................................6-28ENCODED OCTET STRINGS TABLE ......................................................................................................6-28AGENT’S GLOBAL GROUP ...................................................................................................................6-29
ERROR MANAGEMENT ..............................................................................................................................6-29FDP AND CDP .........................................................................................................................................6-30
FDP/CDP GLOBAL CONFIGURATION OBJECTS ....................................................................................6-30FDP INTERFACE TABLE ......................................................................................................................6-31FDP CACHE TABLE ............................................................................................................................6-31FDP CACHED ADDRESS ENTRY TABLE ...............................................................................................6-33
CHAPTER 7USER ACCESS ............................................................................................ 7-1AGENT USER ACCESS GROUP ....................................................................................................................7-1AGENT USER ACCOUNT TABLE ...................................................................................................................7-2GENERAL SECURITY OBJECTS ....................................................................................................................7-3
CONFIGURATION NOTES .......................................................................................................................7-6IP COMMUNITY LIST TABLE .........................................................................................................................7-7IP COMMUNITY LIST STRING TABLE .............................................................................................................7-8AUTHORIZATION AND ACCOUNTING ..............................................................................................................7-9RADIUS GENERAL GROUP .......................................................................................................................7-11RADIUS SERVER TABLE (IPV4) ...............................................................................................................7-14RADIUS SERVER TABLE (FASTIRON X SERIES IPV6 DEVICES) ..................................................................7-15TACACS GENERAL OBJECTS ...................................................................................................................7-16TACACS SERVER TABLE (IPV4) ..............................................................................................................7-18TACACS SERVER TABLE (FASTIRON X SERIES IPV6 DEVICES) .................................................................7-19
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SHOW STATISTICS DOS-ATTACK ..............................................................................................................7-20DOS-ATTACK PORT TABLE .......................................................................................................................7-20
CHAPTER 8MULTI-DEVICE PORT AUTHENTICATION........................................................ 8-1MULTI-DEVICE PORT AUTHENTICATION ........................................................................................................8-1
GLOBAL MULTI-DEVICE PORT AUTHENTICATION OBJECTS .....................................................................8-1CLEAR INTERFACE MULTI-DEVICE PORT AUTHENTICATION OBJECTS ......................................................8-2MULTI-DEVICE PORT AUTHENTICATION OBJECTS ..................................................................................8-2MULTI-DEVICE PORT AUTHENTICATION CLEAR SESSIONS ......................................................................8-3
CHAPTER 9MAC PORT SECURITY ................................................................................ 9-1
MAC PORT SECURITY TABLE ...............................................................................................................9-1MAC PORT SECURITY MODULE STATISTICS TABLE ...............................................................................9-2MAC PORT SECURITY INTERFACE CONTENT TABLE ..............................................................................9-3MAC PORT SECURITY INTERFACE MAC TABLE .....................................................................................9-5MAC PORT SECURITY AUTOSAVE MAC TABLE .....................................................................................9-6MAC PORT SECURITY GLOBAL MIB GROUP .........................................................................................9-6
CHAPTER 10MAC-BASED VLAN ................................................................................. 10-1MAC-BASED VLAN GLOBAL OBJECTS ......................................................................................................10-1MAC-BASED VLAN PORT MEMBER OBJECTS ...........................................................................................10-2MAC-BASED VLAN IF OBJECTS ...............................................................................................................10-3MAC-BASED VLAN OBJECTS ...................................................................................................................10-4
CHAPTER 11INTERFACES ............................................................................................. 11-1SWITCH PORT INFORMATION .....................................................................................................................11-1
SWITCH PORT INFORMATION GROUP ..................................................................................................11-1INTERFACE ID LOOKUP TABLE .................................................................................................................11-12INTERFACE INDEX LOOKUP TABLE ...........................................................................................................11-14TRUNK PORT CONFIGURATION GROUP ....................................................................................................11-15MULTI-SLOT TRUNK PORT TABLE ............................................................................................................11-15MULTI-SLOT TRUNK PORT TABLE ............................................................................................................11-16LINK AGGREGATION GROUP (LAG) TABLE ...............................................................................................11-17PACKET PORT INFORMATION TABLE ........................................................................................................11-18
POS ALARMS AND ERROR CONDITIONS ............................................................................................11-23LOOPBACK INTERFACE CONFIGURATION TABLE ........................................................................................11-24PORT STP CONFIGURATION GROUPS .....................................................................................................11-25
PORT STP CONFIGURATION GROUPS (SNPORTSTPTABLE) ...............................................................11-25PORT STP CONFIGURATION GROUP (SNIFSTPTABLE) .......................................................................11-28
PORT MONITOR TABLE ...........................................................................................................................11-32
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CHAPTER 12FILTERING TRAFFIC................................................................................... 12-1MAC FILTERS ..........................................................................................................................................12-1
MAC FILTER TABLE ...........................................................................................................................12-2MAC FILTER PORT ACCESS TABLES ...................................................................................................12-3FORWARDING DATABASE STATIC TABLE INFORMATION ........................................................................12-4
ACLS .......................................................................................................................................................12-6GLOBAL ACL .....................................................................................................................................12-7IPV4 ACL TABLE ...............................................................................................................................12-7ACL BIND TO PORT TABLE (SNAGACLBINDTOPORTTABLE) ...............................................................12-15ACL PORT TABLE (SNAGACLIFBINDTABLE) ......................................................................................12-16ACL PORT TABLE (AGACLACCNTTABLE) ..........................................................................................12-18IPV6 ACL TABLE (FASTIRON X SERIES IPV6 DEVICES) .....................................................................12-20
CHAPTER 13TRAFFIC CONTROL AND PRIORITIZATION.................................................... 13-1QUALITY OF SERVICE ................................................................................................................................13-1
QOS PROFILE TABLE .........................................................................................................................13-1QOS BIND TABLE ...............................................................................................................................13-2
CAR ........................................................................................................................................................13-2CAR PORT TABLE .............................................................................................................................13-3VLAN CAR OBJECTS ........................................................................................................................13-5
CHAPTER 14MULTICAST............................................................................................... 14-1IGMP ......................................................................................................................................................14-1
GENERAL IGMP OBJECTS ..................................................................................................................14-2IGMP INTERFACE TABLE ....................................................................................................................14-2IGMP STATIC GROUP MIB TABLE ......................................................................................................14-3
PIM .........................................................................................................................................................14-4COMMON PIM OBJECTS .....................................................................................................................14-5PIM VIRTUAL INTERFACE TABLE .........................................................................................................14-6PIM NEIGHBOR TABLE .......................................................................................................................14-7PIM VIRTUAL INTERFACE STATISTICS TABLE .......................................................................................14-8PIM-SM ..........................................................................................................................................14-10
PIM SPARSE: CANDIDATE BSR TABLE ....................................................................................... 14-10 PIM RP SET TABLE.................................................................................................................. 14-11PIM RP CANDIDATE TABLE........................................................................................................ 14-12
DVMRP .................................................................................................................................................14-13GLOBAL DVMRP OBJECTS ..............................................................................................................14-13DVMRP VIRTUAL INTERFACE TABLE ................................................................................................14-15DVMRP NEIGHBOR TABLE ...............................................................................................................14-16DVMRP ROUTE TABLE ....................................................................................................................14-18DVMRP ROUTING NEXT HOP TABLE ................................................................................................14-19DVMRP VIRTUAL INTERFACE STATISTICS TABLE ..............................................................................14-19
MRP ......................................................................................................................................................14-21
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METRO RING TABLE .........................................................................................................................14-21
CHAPTER 15VLANS .................................................................................................... 15-1VLAN BY PORT INFORMATION TABLE .......................................................................................................15-1VLAN BY PORT MEMBERSHIP TABLE ........................................................................................................15-6PORT VLAN CONFIGURATION TABLE .........................................................................................................15-7VLAN BY PROTOCOL CONFIGURATION TABLE ..........................................................................................15-12VLAN BY IP SUBNET CONFIGURATION TABLE ..........................................................................................15-14VLAN BY IPX NETWORK CONFIGURATION TABLE ....................................................................................15-17VLAN BY APPLETALK CABLE CONFIGURATION TABLE ..............................................................................15-19SUPPORT FOR THE NETIRON XMR, NETIRON MLX AND BIGIRON RX .......................................................15-21VLAN BY PORT MEMBERSHIP TABLE ......................................................................................................15-21PORT VLAN CONFIGURATION TABLE .......................................................................................................15-22
CHAPTER 16ROUTER REDUNDANCY PROTOCOLS.......................................................... 16-1FSRP OBJECTS .......................................................................................................................................16-2
FSRP GLOBAL VARIABLES .................................................................................................................16-2FSRP INTERFACE TABLE ...................................................................................................................16-2
VRRP GLOBAL VARIABLES .......................................................................................................................16-5VRRP INTERFACE TABLES ........................................................................................................................16-5
VRRP INTERFACE TABLE ...................................................................................................................16-5VRRP AND VRRPE INTERFACE TABLE 2 ............................................................................................16-6
VRRP VIRTUAL ROUTER PARAMETERS TABLES .........................................................................................16-7VRRP VIRTUAL ROUTER TABLE .........................................................................................................16-7VRRP AND VRRPE PARAMETER TABLE 2 .......................................................................................16-13
VSRP ....................................................................................................................................................16-18GLOBAL VSRP OBJECTS .................................................................................................................16-18VSRP INTERFACE TABLE .................................................................................................................16-19VSRP VIRTUAL ROUTER TABLE .......................................................................................................16-20
SUPPORT FOR THE NETIRON XMR, NETIRON MLX AND BIGIRON RX .......................................................16-26VSRP VIRTUAL ROUTER TABLE ..............................................................................................................16-26 ..............................................................................................................................................................16-30
CHAPTER 17RIP .......................................................................................................... 17-1IP RIP GENERAL GROUP ..........................................................................................................................17-1IP RIP PORT CONFIGURATION TABLE ........................................................................................................17-3REDISTRIBUTION TABLE ............................................................................................................................17-4IP RIP ROUTE FILTER TABLE ....................................................................................................................17-6IP RIP NEIGHBOR FILTER TABLE ..............................................................................................................17-7IP RIP PORT ACCESS TABLE ....................................................................................................................17-8 GLOBAL RIP STATISTICS .........................................................................................................................17-9RFC 1724 - RIP VERSION 2 MIB EXTENSION .........................................................................................17-11
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CHAPTER 18GLOBAL ROUTER AND IP .......................................................................... 18-1GLOBAL ROUTER OBJECTS .......................................................................................................................18-1IP GENERAL GROUP .................................................................................................................................18-2IP STATIC ROUTE TABLE ..........................................................................................................................18-4IP FILTER TABLE ......................................................................................................................................18-5IP INTERFACE PORT ADDRESS TABLE .......................................................................................................18-8IP INTERFACE PORT ACCESS TABLE .........................................................................................................18-9PORT CONFIGURATION TABLES ...............................................................................................................18-10
IP INTERFACE PORT CONFIGURATION TABLE .....................................................................................18-10IP INTERFACE CONFIGURATION TABLE ..............................................................................................18-12
BROADCAST FORWARDING GROUP ..........................................................................................................18-12GENERAL UDP BROADCAST FORWARDING GROUP ...........................................................................18-13UDP BROADCAST FORWARDING PORT TABLE ...................................................................................18-13UDP HELPER TABLE ........................................................................................................................18-14
TRACE ROUTE GROUP ............................................................................................................................18-15GENERAL TRACE ROUTE GROUP ......................................................................................................18-16TRACE ROUTE RESULT TABLE ..........................................................................................................18-17
IP FORWARDING CACHE TABLE ...............................................................................................................18-18IP PREFIX LIST TABLE ............................................................................................................................18-19IP AS-PATH ACCESS LIST TABLE ............................................................................................................18-22IP AS-PATH ACCESS LIST STRING TABLE ...............................................................................................18-22
CHAPTER 19OSPF ...................................................................................................... 19-1OSPF GENERAL OBJECTS ........................................................................................................................19-2OSPF AREA TABLE ..................................................................................................................................19-4AREA RANGE TABLE .................................................................................................................................19-5OSPF INTERFACE CONFIGURATION TABLES ..............................................................................................19-6
OSPF INTERFACE CONFIGURATION TABLE ..........................................................................................19-7OSPF INTERFACE 2 CONFIGURATION TABLE .....................................................................................19-10
OSPF VIRTUAL INTERFACE TABLE ..........................................................................................................19-13OSPF REDISTRIBUTION OF ROUTES TABLE .............................................................................................19-16OSPF NEIGHBOR TABLE ........................................................................................................................19-18OSPF VIRTUAL NEIGHBOR TABLE ...........................................................................................................19-21OSPF LINK-STATE DATABASE ................................................................................................................19-23OSPF LINK STATE DATABASE, EXTERNAL ...............................................................................................19-25OSPF AREA STATUS TABLE ...................................................................................................................19-26OSPF INTERFACE STATUS TABLE ...........................................................................................................19-27OSPF VIRTUAL INTERFACE STATUS TABLE .............................................................................................19-31OSPF ROUTING INFORMATION TABLE .....................................................................................................19-34SUPPORT FOR THE NETIRON XMR, NETIRON MLX AND BIGIRON RX .......................................................19-35
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CHAPTER 20BGP4 ...................................................................................................... 20-1BGP4 GENERAL VARIABLES .....................................................................................................................20-2BGP4 NETWORK TABLE ...........................................................................................................................20-7BGP4 ADDRESS FILTER TABLE .................................................................................................................20-8BGP4 AGGREGATE ADDRESS TABLE ........................................................................................................20-9BGP4 ATTRIBUTE ENTRIES TABLE ..........................................................................................................20-11BGP4 AS-PATH FILTER TABLE ...............................................................................................................20-12BGP4 COMMUNITY FILTER TABLE ...........................................................................................................20-13BGP4 ROUTE MAP FILTER TABLE ...........................................................................................................20-14BGP4 ROUTE MAP MATCH CONFIGURATION TABLE .................................................................................20-15BGP4 ROUTE MAP SET CONFIGURATION TABLE .....................................................................................20-18BGP4 REDISTRIBUTION OF ROUTES TABLE .............................................................................................20-20BGP4 ROUTES OPERATIONAL STATUS TABLE .........................................................................................20-22BGP4 NEIGHBOR GENERAL CONFIGURATION TABLE ................................................................................20-24BGP4 NEIGHBOR DISTRIBUTE GROUP TABLE ..........................................................................................20-27BGP4 NEIGHBOR FILTER GROUP TABLE .................................................................................................20-29BGP4 NEIGHBOR ROUTE MAP TABLE .....................................................................................................20-30BGP4 NEIGHBOR OPERATIONAL STATUS TABLE ......................................................................................20-31BGP4 NEIGHBOR SUMMARY TABLE ........................................................................................................20-33BGP4 CLEAR NEIGHBOR COMMAND TABLE .............................................................................................20-35BGP4 NEIGHBOR PREFIX GROUP TABLE .................................................................................................20-35 ..............................................................................................................................................................20-35SUPPORT FOR THE NETIRON XMR, NETIRON MLX AND BIGIRON RX .......................................................20-37BGP4 NEIGHBOR SUMMARY TABLE ........................................................................................................20-37
CHAPTER 21IPX .......................................................................................................... 21-1IPX GENERAL OBJECTS ............................................................................................................................21-1IPX CACHE TABLE ....................................................................................................................................21-4
IPX ROUTE TABLE .............................................................................................................................21-5IPX SERVER TABLE ...........................................................................................................................21-5IPX FORWARD FILTER TABLE .............................................................................................................21-6IPX RIP FILTER TABLE ......................................................................................................................21-8IPX SAP FILTER TABLE .....................................................................................................................21-9IPX IF FORWARD ACCESS TABLE .....................................................................................................21-10IPX IF RIP ACCESS TABLE ..............................................................................................................21-10IPX IF SAP ACCESS TABLE .............................................................................................................21-11IPX PORT ADDRESS TABLE ..............................................................................................................21-12IPX PORT COUNTERS TABLES ..........................................................................................................21-13
CHAPTER 22APPLETALK.............................................................................................. 22-1APPLETALK GENERAL GROUP ...................................................................................................................22-2APPLETALK SOCKET PRIORITY TABLE .......................................................................................................22-5
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APPLETALK PORT ZONE FILTER TABLE .....................................................................................................22-5APPLETALK PORT TABLE ..........................................................................................................................22-6APPLETALK FORWARDING CACHE TABLE ...................................................................................................22-8APPLETALK ZONE TABLE ..........................................................................................................................22-9APPLETALK ADDITIONAL ZONE FILTER TABLE ............................................................................................22-9
CHAPTER 23MULTIPROTOCOL LABEL SWITCHING ......................................................... 23-1MPLS OBJECTS .......................................................................................................................................23-1MPLS LSP TABLE ...................................................................................................................................23-1
CHAPTER 24PACKET OVER SONET FOR THE NETIRON XMR AND NETIRON MLX........................................................... 24-1RFC 3592 SDH/SONET MIB ..................................................................................................................24-1POS MIB INFO TABLE ..............................................................................................................................24-2POS PPP GROUP ....................................................................................................................................24-4POS CHDLC GROUP ...............................................................................................................................24-5
CHAPTER 25BIDIRECTIONAL FORWARDING ................................................................... 25-1BFD SCALER OBJECTS .............................................................................................................................25-1BFD MIB SESSION TABLE ........................................................................................................................25-2BFD MIB SESSION PERFORMANCE TABLE ................................................................................................25-5BFD MIB SESSION MAPPING TABLE .........................................................................................................25-6
CHAPTER 26MONITORING AND LOGGING ...................................................................... 26-1USAGE NOTES ON CPU UTILIZATION AND SYSTEM CPU UTILITY TABLE .....................................................26-1CPU UTILIZATION .....................................................................................................................................26-2SYSTEM CPU UTILITY TABLE ....................................................................................................................26-3DYNAMIC MEMORY UTILIZATION ................................................................................................................26-4SYSTEM DRAM INFORMATION GROUP ......................................................................................................26-5ARP TABLES ............................................................................................................................................26-5
RARP TABLE .....................................................................................................................................26-6STATIC ARP TABLE ...........................................................................................................................26-7GLOBAL ARP STATISTICS ...................................................................................................................26-8
SFLOW .....................................................................................................................................................26-9SFLOW SOURCE .................................................................................................................................26-9SFLOW COLLECTOR ...........................................................................................................................26-9
NETFLOW EXPORT .................................................................................................................................26-10GLOBAL NETFLOW OBJECTS ............................................................................................................26-11NETFLOW EXPORT COLLECTOR TABLE .............................................................................................26-11NETFLOW EXPORT AGGREGATION TABLE .........................................................................................26-12NETFLOW EXPORT INTERFACE TABLE ...............................................................................................26-14
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SYSTEM LOGGING ..................................................................................................................................26-14GLOBAL OBJECTS ............................................................................................................................26-15DYNAMIC SYSTEM LOGGING BUFFER TABLE ......................................................................................26-17STATIC SYSTEM LOGGING BUFFER TABLE .........................................................................................26-18SYSTEM LOG SERVER TABLE ...........................................................................................................26-19
CAM STATISTICS ...................................................................................................................................26-19IP CAM STATISTICS TABLE ..............................................................................................................26-19
CAM STATISTICS TABLE ............................................................................................................ 26-21CAM USAGE TABLES ..............................................................................................................................26-23
CAM PROFILE .................................................................................................................................26-24CAM USAGE FOR LAYER 3 TRAFFIC .................................................................................................26-24CAM USAGE FOR LAYER 2 TRAFFIC .................................................................................................26-25CAM USAGE SESSION TABLE ...........................................................................................................26-26CAM USAGE OTHER TABLE .............................................................................................................26-28
SYSTEM PROCESS UTILIZATION TABLE ....................................................................................................26-29OBJECTS FOR DEBUGGING ......................................................................................................................26-30SUPPORT FOR OPTICAL MONITORING ......................................................................................................26-31
CHAPTER 27LAYER 4 SWITCH GROUP.......................................................................... 27-1BP HARDWARE STATISTICS ......................................................................................................................27-2BP INTER-PROCESS COMMUNICATION STATISTICS .....................................................................................27-5SESSION ..................................................................................................................................................27-8SERVER LOAD BALANCING TRAFFIC INFORMATION .....................................................................................27-9HOT STANDBY ........................................................................................................................................27-11LAYER 4 POLICIES ..................................................................................................................................27-12
LAYER 4 POLICY TABLE ....................................................................................................................27-12LAYER 4 POLICY PORT ACCESS TABLE .............................................................................................27-14
HEALTH CHECKS ....................................................................................................................................27-15WEB CACHE SERVER OBJECTS ...............................................................................................................27-15
SERVER CACHE GROUPS .................................................................................................................27-16WEB CACHE GROUP TABLE ..............................................................................................................27-17WEB CACHE TABLE ..........................................................................................................................27-18WEB CACHE REAL SERVER PORT TABLE ..........................................................................................27-20WEB CACHE TRAFFIC STATISTICS TABLE ..........................................................................................27-21WEB UNCACHED TRAFFIC STATISTICS TABLE ....................................................................................27-23
REAL SERVER OBJECTS .........................................................................................................................27-24REAL SERVER CONFIGURATION TABLE ..............................................................................................27-24REAL SERVER PORT CONFIGURATION TABLE ....................................................................................27-25REAL SERVER STATISTICS TABLE .....................................................................................................27-27REAL SERVER PORT STATISTIC TABLE ..............................................................................................27-29
VIRTUAL SERVER OBJECTS .....................................................................................................................27-32VIRTUAL SERVER CONFIGURATION TABLE .........................................................................................27-33VIRTUAL SERVER PORT CONFIGURATION TABLE ...............................................................................27-35VIRTUAL SERVER STATISTIC TABLE ..................................................................................................27-37VIRTUAL SERVER PORT STATISTICS TABLE .......................................................................................27-39
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BIND TABLE ............................................................................................................................................27-40L4 BIND TABLE ................................................................................................................................27-40L4 VIRTUAL SERVER BIND TABLE .....................................................................................................27-41
GSLB SITE REMOTE SERVERIRON CONFIGURATION TABLE .....................................................................27-42GSLB DNS ZONE INFORMATION TABLE ..................................................................................................27-44MONITOR GROUPS .................................................................................................................................27-46
REAL SERVER HISTORY CONTROL TABLE .........................................................................................27-46REAL SERVER HISTORY GROUP .......................................................................................................27-48REAL SERVER PORT HISTORY CONTROL GROUP ..............................................................................27-50REAL SERVER PORT HISTORY GROUP ..............................................................................................27-52VIRTUAL SERVER HISTORY CONTROL GROUP ...................................................................................27-53VIRTUAL SERVER HISTORY TABLE ....................................................................................................27-55VIRTUAL SERVER PORT HISTORY CONTROL TABLE ...........................................................................27-56VIRTUAL SERVER PORT HISTORY TABLE ...........................................................................................27-58
CHAPTER 28SECUREIRON MIB OBJECTS ..................................................................... 28-1DOS PROTECTION STATISTICS GROUP .....................................................................................................28-2DOS PROTECTION CUMULATIVE STATISTICS GROUP .................................................................................28-3SIP FILTERING STATISTICS GROUP ...........................................................................................................28-4MAC FILTERING STATISTICS GROUP .........................................................................................................28-5FIREWALL SERVER STATISTICS GROUP .....................................................................................................28-6FIREWALL STATISTICS FOR EACH LAYER 4 PORT GROUP ...........................................................................28-8FIREWALL SERVER PATH INFORMATION GROUP .......................................................................................28-10CONCURRENT CONNECTION LIMITING STATISTICS GROUP ........................................................................28-11TRANSACTION RATE LIMITING STATISTICS GROUP ...................................................................................28-12MAXIMUM CONNECTION TO DESTINATION STATISTICS GROUP ..................................................................28-13DEEP PACKET SCAN STATISTICS GROUP .................................................................................................28-14
CHAPTER 29WIRELESS FEATURES ............................................................................... 29-1GENERAL MIB OBJECTS ...........................................................................................................................29-1WIFI INTERFACE TABLE ............................................................................................................................29-2ROAMING PEER TABLE .............................................................................................................................29-3ACCESS POINT AUTOMATIC DISCOVERY AND CONFIGURATION TABLE .........................................................29-3VPN PASSTHROUGH SERVER TABLE .........................................................................................................29-4VPN PASSTHROUGH FILTER TABLE ...........................................................................................................29-5VPN PASSTHROUGH POLICY TABLE ..........................................................................................................29-6
CHAPTER 30TRAPS AND OBJECTS TO ENABLE TRAPS.................................................. 30-1OBJECTS TO ENABLE OR DISABLE STANDARD TRAPS .................................................................................30-1OBJECTS FOR FOUNDRY TRAPS ................................................................................................................30-2
TRAP INFORMATION ............................................................................................................................30-2TRAP RECEIVER TABLE (IPV4) ...........................................................................................................30-3
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TRAP RECEIVER TABLE (FASTIRON X SERIES IPV6 DEVICES) ..............................................................30-4GENERAL CHASSIS AND AGENT TRAPS ...............................................................................................30-5ENABLE VRRP TRAPS .......................................................................................................................30-7ENABLE FSRP TRAPS ........................................................................................................................30-7ENABLE VSRP TRAPS .......................................................................................................................30-7ENABLE OSPF TRAP OBJECTS ...........................................................................................................30-8ENABLE SWITCH GROUP TRAPS .........................................................................................................30-9OBJECTS TO ENABLE LAYER 4 TRAPS .................................................................................................30-9
STANDARD TRAPS ..................................................................................................................................30-11SYSTEM STATUS TRAPS ...................................................................................................................30-11TRAPS FOR SPANNING TREE PROTOCOL ...........................................................................................30-12TRAPS FOR ALARMS .........................................................................................................................30-13TRAPS FOR OPTICS ..........................................................................................................................30-14PW TRAPS ......................................................................................................................................30-17MPLS L3VPN TRAPS ......................................................................................................................30-18
FOUNDRY TRAPS ....................................................................................................................................30-18GENERAL TRAPS ..............................................................................................................................30-19GENERAL TRAPS FOR THE NETIRON XMR AND NETIRON MLX ..........................................................30-26TRAPS FOR OPTICS ..........................................................................................................................30-29PACKET OVER SONET TRAPS .........................................................................................................30-32MAC-BASED VLAN TRAPS ..............................................................................................................30-33VRRP TRAP ....................................................................................................................................30-33FSRP TRAP ....................................................................................................................................30-33VSRP TRAPS ..................................................................................................................................30-34 OSPF TRAPS .................................................................................................................................30-34LAYER 4 TRAPS ...............................................................................................................................30-40ICMP TRAPS ...................................................................................................................................30-44TCP TRAP .......................................................................................................................................30-44BGP TRAPS ....................................................................................................................................30-45PORT SECURITY TRAPS ....................................................................................................................30-46MRP TRAPS ....................................................................................................................................30-46MPLS TRAPS ..................................................................................................................................30-47TRAPS FOR CAM OVERFLOW ...........................................................................................................30-47TRAPS FOR BIDIRECTIONAL FORWARDING (BFD) ..............................................................................30-47MPLS LSP TRAPS ..........................................................................................................................30-49TRAPS FOR WIRELESS FEATURES .....................................................................................................30-50
WIRELESS FEATURE TRAPS ....................................................................................................... 30-50WIRELESS MOBILITY TRAPS ....................................................................................................... 30-51ADC TRAP................................................................................................................................ 30-51AUTOMATIC PORT DISABLEMENT TRAPS..................................................................................... 30-52
SNMP TRAPS FOR RSVP-SIGNALED LSP STATE ..............................................................................30-52UDLD TRAPS ..................................................................................................................................30-52
BPDU GUARD AND ROOT GUARD TRAPS ................................................................................................30-53EXAMPLES ..............................................................................................................................................30-54
RMON EVENT TRAPS ......................................................................................................................30-54
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APPENDIX AUSING SNMP TO UPGRADE SOFTWARE ......................................................A-1UPGRADING A STACKABLE DEVICE OR A CHASSIS MODULE’S MANAGEMENT PROCESSOR ............................ A-1UPGRADING SWITCHING PROCESSORS ON A CHASSIS DEVICE .................................................................... A-2
INDEX BY OBJECT NAME......................................................................Index-1
xvi © 2008 Foundry Networks, Inc. April 2008
Chapter 1Getting Started
This guide describes the objects supported in the Foundry Management Information Base (MIB) on Foundry devices except for the EdgeIron devices and IronPoint access points. A MIB is a database of objects that can be used by network management systems to monitor devices on the network. It contains the definitions of the object properties within a managed device. Each managed device keeps a database of values for each of the definitions in the MIB.
AudienceThis manual is designed for network administrators with a working knowledge of the following:
• Layer 2 and Layer 3 switching and routing
• Layer 4 to 7 networking
If you are using a Foundry Layer 3 Switch, you should be familiar with the following protocols if applicable to your network: IP, RIP, OSPF, BGP4, IGMP, PIM, DVMRP, IPX, AppleTalk, FSRP, and VRRP.
NomenclatureThis guide uses the following typographical conventions to show information:
Italic highlights the title of another publication and occasionally emphasizes a word or phrase.
Bold Italic highlights a term that is being defined.
NOTE: A note emphasizes an important fact or calls your attention to a dependency.
Related PublicationsThe following Foundry Networks documents supplement the information in this guide.
• Foundry Switch and Router Installation and Basic Configuration Guide – provides configuration guidelines for Layer 2 and Layer 3 devices and installation procedures for the Foundry devices with IronCore and JetCore modules, as well as Terathon and FastIron Edge Switch devices.
• Foundry Security Guide – provides procedures for securing management access to Foundry devices and for protecting against Denial of Service (DoS) attacks.
• Foundry Enterprise Configuration and Management Guide – provides configuration information for enterprise routing protocols including IP, RIP, IP multicast, OSPF, BGP4, VRRP and VRRPE. This guide applies to
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Foundry devices with IronCore and JetCore modules, as well as Terathon and FastIron Edge Switch devices.
• Foundry NetIron Service Provider Configuration and Management Guide – provides configuration information for IS-IS and MPLS for Foundry devices with IronCore and JetCore modules that support IS-IS and MPLS.
• Foundry NetIron IMR 640 Service Provider Configuration and Management Guide – provides configuration information for IS-IS and MPLS for for the NetIron IMR 640.
• Foundry Switch and Router Command Line Interface Reference – provides a list and syntax information for Foundry devices with IronCore and JetCore modules, as well as Terathon and FastIron Edge Switch devices.
• Foundry Diagnostic Guide – provides descriptions of diagnostic commands that can help you diagnose and solve issues on IronCore, JetCore, and Terathon Layer 2 Switches and Layer 3 Switches.
• Foundry BigIron MG8 Switch Installation and Basic Configuration Guide – provides installation procedures for the BigIron MG8. This guide also presents the management modules available in the device.
• Foundry NetIron 40G Switch Installation and Basic Configuration Guide – provides installation procedures for the BigIron MG8. This guide also presents the management modules available in the device.
• NetIron IMR 640 Installation and Basic Configuration Guide – provides procedures for installing modules into and connecting your DC power source(s) to the NetIron IMR 640 chassis, cabling the Ethernet interface ports, and performing a basic configuration of the software.
• Foundry Management Information Base Reference – presents the Simple Network Management Protocol (SNMP) Management Information Base (MIB) objects that are supported in the Foundry devices.
• Foundry IPv6 Configuration Guide – provide configuration information for IPv6 features on Foundry devices with IronCore and JetCore modules, as well as Terathon and FastIron Edge Switch devices.
• Foundry IronPoint Wireless LAN Configuration Guide – presents the features for the IronPoint wireless LAN (WLAN), which is supported on the IronPoint-FastIron Edge Switch.
NOTE: For the latest edition of this document, which contains the most up-to-date information, see Product Manuals at https:/kp.foundrynet.com.
Updates to this ManualThis manual may be updated between releases. For the latest edition of this manual, check the Foundry Knowledge Portal at kp.foundrynet.com.
How to Get Help or Report ErrorsFoundry Networks is committed to ensuring that your investment in our products remains cost-effective. If you need assistance or find errors in the manuals, contact Foundry Networks using one of the following options.
Web AccessGo to kp.foundrynet.com and log in to the Knowledge Portal (KP) to obtain more information about a product, or to report documentation errors. To report errors, click on Cases > Create a New Ticket.
Email AccessSend an e-mail to: [email protected]
Telephone Access• 1.877.TURBOCALL (887.2622) – United States
• 1.408.207.1600 – Outside the United States
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Getting Started
Warranty CoverageContact Foundry Networks using any of the methods listed above for information about the standard and extended warranties.
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1-4 © 2008 Foundry Networks, Inc. April 2008
Chapter 2Overview of the Foundry MIB
The Management Information Base (MIB) is a database of objects that can be used by a network management system to manage and monitor devices on the network. The MIB can be retrieved by a network management system that uses Simple Network Management Protocol (SNMP). The MIB structure determines the scope of management access allowed by a Foundry device. By using SNMP, a manager application can issue read or write operations within the scope of the MIB.
This document has been updated to reflect the MIBs supported up to the following software releases:
• Enterprise IronWare software releases 07.6.04 and later. These releases apply to the following products:
• NetIron 400/800/1500 Chassis devices with IronCore or JetCore management modules
• BigIron 4000/8000/15000 Chassis devices with IronCore or JetCore management modules
• FastIron II, FastIron II Plus, and FastIron III with M2 or higher management modules
• FastIron 400/800/1500 Chassis devices with JetCore modules
• FastIron 4802 Stackable device
• Service Provider IronWare software releases 09.1.00 and later. These releases apply to the following products:
• NetIron 400/800/1500 Chassis devices with IronCore or JetCore management modules
• BigIron 4000/8000/15000 Chassis devices with IronCore or JetCore management modules
• NetIron 4802 Stackable device
• FastIron 4802 Stackable device
• IronWare software release 09.0.00 and later for the NetIron 4802
• IronWare software releases 03.0.00 and later for the following products:
• FastIron Edge Switch (FES) 2402, FES 4802, FES 9604, and FES 12GCF
• FES Power Over Ethernet (POE) series
• FGS and FLS Layer 2 Compact switches
• IronWare software release 01.0.00 and later for the FastIron Edge Switch X Series (FESX), FastIron SuperX (FSX), and FastIron SX 800 and 1600.
• Terathon IronWare software releases 01.0.00 through 03.2.00. These releases apply to the following products:
• BigIron MG8
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• BigIron RX Series RX-4/RX-8/RX-16/RX-32 Chassis devices
• NetIron MG8
• NetIron XMR Series 4000/8000/16000 Chassis devices.
• NetIron MLX Series 4/8/16 Chassis devices.
• NetIron IMR 640
• Switch software release 02.0.00 and later for Secureiron Traffic Managers and LAN switches
• Switch software release 09.0.00S and later for ServerIron Chassis devices
• Router software release 08.0.00 and 08.1.00R for ServerIron Chassis devices
• Software release 07.3.07XL and 07.4.00XL for the ServerIronXL Stackable device
NOTE: For a list of standard MIBs supported on EdgeIron devices, refer to the EdgeIron Release Notes.
• IronPoint-FES devices.
• Multi-Service IronWare release 03.1.00 and later for the NetIron MLX-Series and NetIron XMR-Series Routers
Obtaining and Installing the Foundry MIBsYou can obtain the Foundry MIBs:
• From the product CD-ROM
• By downloading the file from Foundry Networks Web site or FTP site.
After obtaining the MIB, follow the instructions for your network management system to be able to use the MIB.
Obtaining the MIB from the Product CDOn the product CD-ROM, look for the MIB file under the “image” folder. MIB files have a .mib extension.
Downloading the MIB from Foundry Networks Web SiteTo download the MIB from the Foundry Networks Web site, you must have a user name and password to access the Foundry Networks support site. Then do the following:
1. Open your Web browser and enter the following URL:
http://www.foundrynet.com/
2. Click Service -> Technical Support to display the Technical Support page.
3. Click the Log In button and enter your user name and password.
4. Click a product on the left frame of the Technical Support site and find the appropriate IronWare release for that product. Each IronWare release has a link for its corresponding MIB.
5. Click the link for the MIB to open the file or save it to disk.
Downloading the MIB from Foundry Networks FTP SiteYou can also download the MIB from the Foundry ftp support site. Contact Foundry support for details. For the latest edition of this document, which contains the most up-to-date information, see Product Manuals at https:/kp.foundrynet.com.
Importing Foundry MIB into a UNIX EnvironmentYou can import the Foundry MIB into third-party Network Management Applications, such as HP OpenView. By default, the Foundry MIB files are in DOS ASCII format that uses the following characters:
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Overview of the Foundry MIB
• CR/LF – Indicates the end of a line
• ^Z - Indicates the end of a file
However, in a UNIX environment, the characters LF are used to indicate the end of a line. No character indicates the end of a file. Therefore, if you need to import the Foundry MIB into a UNIX environment, you must use a tool that converts the DOS ASCII into UNIX ASCII, such as the dos2unix tool.
Reloading MIBs into a HP EnvironmentHP OpenView may have problems reloading MIB files. When reloading the Foundry MIBs for the NetIron XMR and NetIron MLX into third-party Network Management Applications such as HP OpenView, you must:
• Unload the the Foundry Enterprise MIBs which were installed from the previous upgrade before reloading any new Enterprise MIB file.
• Unload the Standard MIBs which were installed from the previous upgrade before reloading any new Standard MIB file.
Standard ObjectsThe Foundry MIB supports certain standard MIB objects, which are derived from Request for Comments (RFCs) documents. Refer to “Supported Standard MIBs” on page 3-1 for details on the supported standard MIBs.
Proprietary ObjectsProprietary objects are MIB objects that have been developed specifically to manage Foundry products. This section presents a summarized list of these objects.
Table 2.1 shows the hierarchy of the MIB objects that are proprietary to Foundry products. These objects may also be referred to as the private (or enterprise) MIBs.
On the MIB tree, the object named “foundry” marks the start of the Foundry MIB objects. The “foundry” object branches into the “products” branch, which branches further into three major nodes:
• switch – Includes general SNMP MIB objects and objects related to switching functions.
• router – Contains objects for routing protocols, such as IP, OSPF, BGP.
• registration – Includes the objects for each model of the Foundry product line.
Each of these major nodes are further divided into smaller categories.
Table 2.1 contains a summary of the major categories or MIB object groups under each major node. The MIB object groups can be divided into the individual MIB objects or additional object groups.
The column “Object Group Name” presents the name of the MIB object. The “Object Identifier” column shows the MIB object’s identifier (OID). In this guide, the Foundry objects are presented with their object names and object their identifiers (OIDs). As shown in Table 2.1, OIDs are presented in the format fdry.x.x.x.x, where:
• “fdry” represents the number 1.3.6.1.4.1.1991
• .x.x.x.x is the remainder of the number
For example, the OID for the object snChassis is 1.3.6.1.4.1.1991.1.1.1, but appears as fdry.1.1.1 in this guide.
The Description column indicates the section in this guide that contains details for that object.
Table 2.1: Summary of MIB Objects Proprietary to Foundry Products
Object Group Name Object Identifier
Sections to Refer To
foundry fdry All sections in this manual
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products fdry.1 All sections in this manual
switch fdry.1.1 All sections under the switch branch
snChassis fdry.1.1.1
snChasGen fdry.1.1.1.1 “Common Objects” on page 5-1
snChasPwr fdry.1.1.1.2 “Power Supply” on page 5-1
snChasFan fdry.1.1.1.3 “Fan” on page 5-1
snAgentSys fdry.1.1.2
snAgentBrd fdry.1.1.2.2 “Agent Board Table” on page 5-6
snAgenTrp fdry.1.1.2.3 “Trap Receiver Table (IPv4)” on page 30-3
snAgentBoot fdry.1.1.2.4 “Boot Sequence Table” on page 6-12
snAgCfgEos fdry.1.1.2.5 “Encoded Octet Strings Table” on page 6-28
snAgentLog fdry.1.1.2.6 “System Logging” on page 26-14
snAgentSysParaConfig fdry.1.1.2.7 “Agent System Parameters Configuration Table” on page 6-13
snAgentConfigModule fdry.1.1.2.8 “Configured Module Table” on page 5-14
snAgentUser fdry.1.1.2.9 “Agent User Access Group” on page 7-1
snAgentRedundant fdry.1.1.2.10 “Redundant Modules” on page 5-18
snAgentCpu fdry.1.1.2.11 “CPU Utilization” on page 26-2
snAgSystemDRAM and snCAM
fdry.1.1.2.12 “System DRAM Information Group” on page 26-5
and
“CAM Statistics” on page 26-19 and “CAM Usage Tables” on page 26-23
snSwitch fdry.1.1.3 “Basic Configuration and Management” on page 6-1
snSwInfo fdry.1.1.3.1 “Switch Group Configuration” on page 6-15
snVLanInfo fdry.1.1.3.2 “VLAN By Port Information Table” on page 15-1
snSwPortInfo fdry.1.1.3.3 “Switch Port Information Group” on page 11-1
snFdbInfo fdry.1.1.3.4 “Forwarding Database Static Table Information” on page 12-4
snPortStpInfo fdry.1.1.3.5 “Port STP Configuration Groups” on page 11-25
snTrunkInfo fdry.1.1.3.6 “Trunk Port Configuration Group” on page 11-15
Table 2.1: Summary of MIB Objects Proprietary to Foundry Products (Continued)
Object Group Name Object Identifier
Sections to Refer To
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snSwSummary fdry.1.1.3.7 “Switch Configuration Summary Group” on page 6-20
snDnsInfo fdry.1.1.3.9 “DNS Group (IPv4)” on page 6-20
snMacFilter fdry.1.1.3.10 “MAC Filter Table” on page 12-2 and “MAC Filter Port Access Tables” on page 12-3
snNTP fdry.1.1.3.11 “NTP General Group” on page 6-24 and “NTP Server Table (IPv4)” on page 6-26
snRadius fdry.1.1.3.12 “Authorization and Accounting” on page 7-9 and “RADIUS General Group” on page 7-11
snTacacs fdry.1.1.3.13 “TACACS General Objects” on page 7-16 and “TACACS Server Table (FastIron X Series IPv6 Devices)” on page 7-19
snQos fdry.1.1.3.14 “QoS Profile Table” on page 13-1 and “QoS Bind Table” on page 13-2
snAAA fdry.1.1.3.15 “Authorization and Accounting” on page 7-9
snCAR fdry.1.1.3.16 “CAR” on page 13-2
snVLanCAR fdry.1.1.3.17 “VLAN CAR Objects” on page 13-5
snNetFlow fdry.1.1.3.18 “NetFlow Export” on page 26-10
sFlowCollectorTable fdry1.1.3.19.2 “sFlow” on page 26-9
snFdp fdry.1.1.3.20.1 “FDP and CDP” on page 6-30
snvsrp fdry.1.1.3.21 “VSRP” on page 16-18
snarp fdry.1.1.3.22 “Static ARP Table” on page 26-7
fdryDns fdry.1.1.3.30 “DNS Address Table (FastIron X Series IPv6 Devices)” on page 6-20
and
“Domain Name Server Table (FastIron X Series IPv6 Devices)” on page 6-21
snL4 fdry.1.1.4 “Layer 4 Switch Group” on page 27-1
snL4Gen fdry.1.1.4.1 “Layer 4 Switch Group” on page 27-1
snL4Bind fdry.1.1.4.6 “Bind Table” on page 27-40
snL4Policy fdry.1.1.4.11 “Layer 4 Policy Table” on page 27-12
snL4PolicyPortAccess fdry.1.1.4.12 “Layer 4 Policy Port Access Table” on page 27-14
snL4Trap fdry.1.1.4.13 “Layer 4 Traps” on page 30-40
snL4WebCache fdry.1.1.4.14 “Web Cache Table” on page 27-18 and “Server Cache Groups” on page 27-16
Table 2.1: Summary of MIB Objects Proprietary to Foundry Products (Continued)
Object Group Name Object Identifier
Sections to Refer To
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snL4WebCacheGroup fdry.1.1.4.15 “Web Cache Group Table” on page 27-17
snL4WebCacheTrafficStats fdry.1.1.4.16 “Web Cache Traffic Statistics Table” on page 27-21
snL4WebUncachedTrafficStats
fdry.1.1.4.17 “Web Uncached Traffic Statistics Table” on page 27-23
snL4WebCachePort fdry.1.1.4.18 “Web Cache Real Server Port Table” on page 27-20
snL4RealServerCfg fdry.1.1.4.19 “Real Server Configuration Table” on page 27-24
snL4RealServerPortCfg fdry.1.1.4.20 “Real Server Port Configuration Table” on page 27-25
snL4VirtualServerCfg fdry.1.1.4.21 “Virtual Server Configuration Table” on page 27-33
snL4VirtualServerPortCfg fdry.1.1.4.22 “Virtual Server Port Configuration Table” on page 27-35
snL4RealServerStatistic fdry.1.1.4.23 “Real Server Statistics Table” on page 27-27
snL4RealServerPortStatistic fdry.1.1.4.24 “Real Server Port Configuration Table” on page 27-25
snL4VirtualServerStatistic fdry.1.1.4.25 “Virtual Server Statistic Table” on page 27-37
snL4VirtualServerPortStatistic
fdry.1.1.4.26 “Virtual Server Port Statistics Table” on page 27-39
snL4GslbSiteRemoteServerIrons
fdry.1.1.4.27 “GSLB Site Remote ServerIron Configuration Table” on page 27-42
snL4History fdry.1.1.4.28 “Monitor Groups” on page 27-46
fdrySntp fdry.1.1.7
fdrySntpMIB fdry.1.1.7.1 “SNTP Server Table (FastIron X Series IPv6 Devices)” on page 6-27
fdryRadius fdry.1.1.8
fdryRadiusMIB fdry.1.1.8.1 “RADIUS Server Table (FastIron X Series IPv6 Devices)” on page 7-15
fdryTacacs fdry.1.1.9
fdryTacacsMIB fdry.1.1.9.1 “TACACS Server Table (FastIron X Series IPv6 Devices)” on page 7-19
fdryTrap fdry.1.1.10
fdryTrapMIB fdry.1.1.10.1 “Trap Receiver Table (FastIron X Series IPv6 Devices)” on page 30-4
router fdry.1.2 All sections under the router branch
Table 2.1: Summary of MIB Objects Proprietary to Foundry Products (Continued)
Object Group Name Object Identifier
Sections to Refer To
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snIpx fdry.1.2.1 “IPX” on page 21-1
snIpxGen fdry.1.2.1.1 “IPX General Objects” on page 21-1
snIpxCache fdry.1.2.1.2 “IPX Cache Table” on page 21-4
snIpxRoute fdry.1.2.1.3 “IPX Route Table” on page 21-5
snIpxServer fdry.1.2.1.4 “IPX Server Table” on page 21-5
snIpxFwdFilter fdry.1.2.1.5 “IPX Forward Filter Table” on page 21-6
snIpxRipFilter fdry.1.2.1.6 “IPX RIP Filter Table” on page 21-8
snIpxSapFilter fdry.1.2.1.7 “IPX SAP Filter Table” on page 21-9
snIpxIfFwdAccess fdry.1.2.1.8 “IPX IF Forward Access Table” on page 21-10
snIpxIfRipAccess fdry.1.2.1.9 “IPX IF RIP Access Table” on page 21-10
snIpxIfSapAccess fdry.1.2.1.10 “IPX IF SAP Access Table” on page 21-11
snIpxPortAddr fdry.1.2.1.11 “IPX Port Address Table” on page 21-12
snIpxPortCounters fdry.1.2.1.12 “IPX Port Counters Tables” on page 21-13
snIp fdry.1.2.2 “Global Router and IP” on page 18-1
snRtIpGeneral fdry.1.2.2.1 “Global Router and IP” on page 18-1
snAgAcl fdry.1.2.2.15 “Filtering Traffic” on page 12-1
snIPAsPathAccessListStringTable
fdry.1.2.2.16 “IP AS-Path Access List Table” on page 18-22
snIpCommunityListStringTable
fdry.1.2.2.17 “IP Community List String Table” on page 7-8
snRtIpPortIfAddrTable fdry.1.2.2.18 “IP Interface Port Address Table” on page 18-8
snRtIpPortIfAccessTable fdry.1.2.2.19 “IP Interface Port Access Table” on page 18-9
snRip fdry.1.2.3 “RIP” on page 17-1
snRtIpRipGeneral fdry.1.2.3.1 “IP RIP General Group” on page 17-1
snOspf fdry.1.2.4 “OSPF” on page 19-1
snOspfGen fdry.1.2.4.1 “OSPF General Objects” on page 19-2
snOspfArea fdry.1.2.4.2 “OSPF Area Table” on page 19-4
snOspfAddrRange fdry.1.2.4.3 “Area Range Table” on page 19-5
snOspfIntf fdry.1.2.4.4 “OSPF Interface Configuration Tables” on page 19-6
snOspfVirtIf fdry.1.2.4.5 “OSPF Virtual Interface Table” on page 19-13
Table 2.1: Summary of MIB Objects Proprietary to Foundry Products (Continued)
Object Group Name Object Identifier
Sections to Refer To
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snOspfRedis fdry.1.2.4.6 “OSPF Redistribution of Routes Table” on page 19-16
snOspfNbr fdry.1.2.4.7 “OSPF Neighbor Table” on page 19-18
snOspfVirtNbr fdry.1.2.4.8 “OSPF Virtual Neighbor Table” on page 19-21
snOspfLsdb fdry.1.2.4.9 “OSPF Link-State Database” on page 19-23
snOspfExtLsdb fdry.1.2.4.10 “OSPF Link State Database, External” on page 19-25
snOspfAreaStatus fdry.1.2.4.11 “OSPF Area Status Table” on page 19-26
snOspfIfStatus fdry.1.2.4.12 “OSPF Interface Status Table” on page 19-27
snOspfVirtIfStatus fdry.1.2.4.13 “OSPF Virtual Interface Status Table” on page 19-31
snOspfRoutingInfo fdry.1.2.4.14 “OSPF Routing Information Table” on page 19-34
snOspfTrapControl fdry.1.2.4.15 “OSPF Traps” on page 30-34 section in the “Traps and Objects to Enable Traps” on page 30-1 chapter
snDvmrp fdry.1.2.5“DVMRP” on page 14-13
snDvmrpMIBObjects fdry.1.2.5.1
snIgmp fdry.1.2.6“IGMP” on page 14-1
snIgmpMIBObjects fdry.1.2.6.1
snFsrp fdry.1.2.7 “FSRP Objects” on page 16-2
snFsrpGlobal fdry.1.2.7.1 “FSRP Global Variables” on page 16-2
snFsrpIntf fdry.1.2.7.2 “FSRP Interface Table” on page 16-2
snGblRt fdry.1.2.8“Global Router Objects” on page 18-1
snGblRtGeneral fdry.1.2.8.1
snPim fdry.1.2.9 “PIM” on page 14-4
snPimMIBObjects fdry.1.2.9.1 “Common PIM Objects” on page 14-5, “PIM Virtual Interface Table” on page 14-6, “PIM Neighbor Table” on page 14-7, and “PIM Virtual Interface Statistics Table” on page 14-8
snPimSMMIBObjects fdry.1.2.9.2 “PIM-SM” on page 14-10
snAppleTalk fdry.1.2.10“AppleTalk” on page 22-1
snRtATGeneral fdry.1.2.10.1
snBgp4 fdry.1.2.11 “BGP4” on page 20-1
Table 2.1: Summary of MIB Objects Proprietary to Foundry Products (Continued)
Object Group Name Object Identifier
Sections to Refer To
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Overview of the Foundry MIB
snBgp4Gen fdry.1.2.11.1 “BGP4 General Variables” on page 20-2
snBgp4AddrFilter fdry.1.2.11.2 “BGP4 Address Filter Table” on page 20-8
snBgp4AggregateAddr fdry.1.2.11.3 “BGP4 Aggregate Address Table” on page 20-9
snBgp4AsPathFilter fdry.1.2.11.4 “BGP4 AS-Path Filter Table” on page 20-12
snBgp4CommunityFilter fdry.1.2.11.5 “BGP4 Community Filter Table” on page 20-13
snBgp4NeighGenCfg fdry.1.2.11.6 “BGP4 Neighbor General Configuration Table” on page 20-24
snBgp4NeighDistGroup fdry.1.2.11.7 “BGP4 Neighbor Distribute Group Table” on page 20-27
snBgp4NeighFilterGroup fdry.1.2.11.8 “BGP4 Neighbor Filter Group Table” on page 20-29
snBgp4NeighRouteMap fdry.1.2.11.9 “BGP4 Neighbor Route Map Table” on page 20-30
snBgp4Network fdry.1.2.11.10 “BGP4 Network Table” on page 20-7
snBgp4Redis fdry.1.2.11.11 “BGP4 Redistribution of Routes Table” on page 20-20
snBgp4RouteMapFilter fdry.1.2.11.12 “BGP4 Route Map Filter Table” on page 20-14
snBgp4RouteMapMatch fdry.1.2.11.13 “BGP4 Route Map Match Configuration Table” on page 20-15
snBgp4RouteMapSet fdry.1.2.11.14 “BGP4 Route Map Set Configuration Table” on page 20-18
snBgp4NeighOperStatus fdry.1.2.11.15 “BGP4 Neighbor Operational Status Table” on page 20-31
snBgp4NeighborSummary fdry.1.2.11.17 “BGP4 Neighbor Summary Table” on page 20-33
snBgp4Attribute fdry.1.2.11.18 “BGP4 Attribute Entries Table” on page 20-11
snBgp4ClearNeighborCmd fdry.1.2.11.19 “BGP4 Clear Neighbor Command Table” on page 20-35
snBgp4NeighPrefixGroup fdry.1.2.11.20 “BGP4 Neighbor Prefix Group Table” on page 20-35
snVrrp fdry.1.2.12 “Router Redundancy Protocols” on page 16-1
snVrrpGlobal fdry.1.2.12.1 “VRRP Global Variables” on page 16-5
snVrrpIf2Table fdry.1.2.12..4.1
“VRRP and VRRPE Interface Table 2” on page 16-6
Table 2.1: Summary of MIB Objects Proprietary to Foundry Products (Continued)
Object Group Name Object Identifier
Sections to Refer To
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Structure of This GuideAll chapters in this guide contain details about the MIB objects that are in the Foundry MIB. Each object is presented with its object name and OID, the access type available for that object (for example, read-write or read only), and a description. Objects are grouped according to their function.
The chapter “Traps and Objects to Enable Traps” on page 30-1 contains both the objects used to enable a particular type of trap and the objects that are available for a trap type. For example, objects to enable Layer 4 traps as well as the Layer 4 trap objects are in the chapter.
About SNMPv3 Support on Enterprise Software ReleasesOn devices running Enterprise software, SNMPv3 engine is supported in Foundry devices, beginning with IronWare release 07.5.01; however, there are no MIB objects specific to SNMPv3. The SNMPv3 engine can accept V1, V2c and V3 packet formats. IronWare releases prior to 07.5.01 support SNMP v1 and v2c engine. No V3 packet can be accepted by these engines.
Also, in IronWare releases earlier than 07.5.00, the SNMP agent does not check for type validity with the SNMP version. In IronWare release 07.5.00 and above, if the manager sends an SNMP request with a varbind of an invalid type for that version of SNMP, the SNMP agent sends a response with the error “noSuchName” for that varbind. For example, MIB objects of type Counter64 cannot be retrieved using a v1 packet, as Counter64 is a v2c and v3 type.
snVrrpVirRtr2Table fdry.1.2.12.5. “VRRP and VRRPE Parameter Table 2” on page 16-13
snLoopbackIf fdry.1.2.13 “Loopback Interface Configuration Table” on page 11-24
snPOS fdry.1.2.14 “Packet Port Information Table” on page 11-18
and snPOSInfo fdry.1.2.14.1
fdryAcl fdry.1.2.16
fdryAclMIB fdry.1.2.16.1 “IPv6 ACL Table (FastIron X Series IPv6 Devices)” on page 12-20
registration fdry.1.3 Product identification
Table 2.1: Summary of MIB Objects Proprietary to Foundry Products (Continued)
Object Group Name Object Identifier
Sections to Refer To
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Chapter 3Supported Standard MIBs
This section summarizes the standard objects that are supported in the Foundry MIB. It does not document all the supported standard objects, but present those standard MIBs that are not fully supported.
For example, although RFC1213 is supported in the Foundry MIB, some groups and tables in that MIB are not supported. The section “RFC 1213: Management Information Base (MIB-II)” on page 3-4 identifies the groups and tables that are supported and the ones not supported.
Supported on Multi-Service IronWare NetIron XMR and NetIron MLX Devices
For a complete list of standards supported on the NetIron XMR Series routers and the NetIron MLX Series routers, see the Software Specifications chapter Foundry NetIron XMR/MLX Configuration Guide.
Supported on FastIron X Series IPv6 DevicesIn addition to Foundry proprietary MIBs for IPv6, the following standard MIBs were added in software release 04.1.00 for FastIron X Series IPv6 devices:
• RFC 2465 – Management Information Base for IP Version 6: Textual Conventions and General Group
NOTE: RFC 2465 MIB support on FastIron X Series IPv6 devices is limited to ipv6NetToMediaTable and ipv6AddrTable only.
• RFC 2466 – Management Information Base for IP Version 6: ICMPv6 Group
• RFC 2454 – IP Version 6 Management Information Base for the User Datagram Protocol
• RFC 2452 – IP Version 6 Management Information Base for the Transmission Control Protocol
• RFC 4001 – Textual Conventions for Internet Network Addresses
Supported on BigIron and FastIron X Series DevicesIn Enterprise software release 07.8.02 and later and FastIron X Series devices running software release 03.0.00 and later, the following changes were made to the SNMP MIB support:
• Enterprise Trap MIB was rewritten in SNMPv2 format
• Added support for RFC 3411 – SNMP Framework MIB
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• Added support for RFC 3412 - Message Processing and Dispatching (MPD) for the SNMP MIB.
• Added support for RFC 3413 – SNMP Target MIB
• Added support for RFC 3414 – User-Security Model for SNMPv3 MIB
• Added support for RFC 3415 – View-based Access Control Model for SNMP MIB
• Changes to snAgTrpRcvrTable
• The Object snAgTrpRcvrCommunity has been renamed to snAgTrpRcvrCommunityOrSecurityName to indicate that this object can also have the v3 security name (user name), instead of community string.
• Added support for RFC 4273 –Definitions of Managed Objects for BGP-4
• Added support for RFC 4188 – Definitions of Managed Objects for Bridges
• Added support for RFC 2863 –The Interfaces Group MIB
The following are supported in BigIron Enterprise software release 07.6.02 and later.
• RFC 1850: OSPF Version 2 Management Information Base
• RFC 1657: Definitions of Managed Objects for the Fourth Version of the Border Gateway Protocol (BGP-4) using SMIv2
• RFC 3812: MPLS-TE-STD-MIB
Support for proprietary MIB objects for OSPF and BGP is available in the Foundry MIB in addition to support for standard OSPF and BGP MIBs.
On devices running Enterprise software release 07.6.05 and later, the following SNMP v3 standard MIBs are supported:
• RFC 3411: An Architecture for Describing Simple Network Management Protocol (SNMP) Management Frameworks
• RFC 3412: Message Processing and Dispatching for the Simple Network Management Protocol (SNMP)
• RFC 3414: User-based Security Model (USM) for version 3 of the Simple Network Management Protocol (SNMPv3)
• RFC 3415: View-based Access Control Model (VACM) for the Simple Network Management Protocol (SNMP)
• RFC 4382: MPLS/BGP Layer 3 Virtual Private Network (VPN) Management Information Base
Supported on Terathon DevicesThe following standard MIBs are supported on the BigIron MG8 and NetIron 40G.
• 1155 – Structure and Identification of Management Information (SMI)
• 1157 – Simple Network Management Protocol (SNMP) version 1
• 1212 – Concise MIB Definitions
• 1215 – SNMP generic traps
• 1493 – Bridge MIB (excluding filtering of objects)
• 1657 – Definitions of Managed Objects for the Fourth Version of the Border Gateway Protocol (BGP-4) using SMIv2
• 1724 – RIP Version 2 MIB Extension
• 1850 – OSPF Version 2 Management Information Base
• 1905 – Protocol Operations for Version 2 of the Simple Network Management Protocol (SNMPv2)
• 1906 – Transport Mappings for Version 2 of the Simple Network Management Protocol (SNMPv2)
• 2011 – SNMPv2 Management Information Base for the Internet Protocol using SMIv2
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Supported Standard MIBs
• 2012 – SNMPv2 Management Information Base for the Transmission Control Protocol using SMIv2
• 2013 – SNMPv2 Management Information Base for the User Datagram Protocol using SMIv2
• 2096 – IP Forwarding MIB
• 2233 – The Interfaces Group MIB using SMIv2
• 2452 - IP Version 6 Management Information Base for the Transmission Control Protocol
• 2454 - IP Version 6 Management Information Base for the User Datagram Protocol
• 2465 - Management Information Base for IP Version 6: Textual Conventions and General Group
• 2466 - Management Information Base for IP Version 6: ICMPv6 Group
• 2570 – Introduction to Version 3 of the Internet-standard Network Management Framework
• 2571 – An Architecture of Describing SNMP Management Frameworks
• 2572 – Message Processing and Dispatching for the Simple Network Management Protocol (SNMP)
• 2574 – User-based Security (USM) for version 3 of the Simple Network Management Protocol (SNMPv3)
• 2575 – View-based Access Control Model (VACM) for the Simple Network Management Protocol (SNMP)
• 2578 – Structure of Management Information Version 2 (SMIv2)
• 2580 – Conformance Statements for SMIv2
• 2665 – Ethernet Like MIB (incorporates RFC 1398)
• 2674 – Definitions of Managed Objects for Bridges with Traffic Classes, Multicast Filtering and Virtual LAN Extensions
• 2787 – Definitions of Managed Objects for the Virtual Router Redundancy Protocol
• 2932 – IPv4 Multicast Routing MIB
• 2933 – Internet Group Management Protocol MIB
• 2934 – Protocol Independent Multicast MIB for IPv4
• 3176 – InMon Corporation's sFlow: A Method for Monitoring Traffic in Switched and Routed Networks
• 3411 – Simple Network Management Protocol (SNMP) Management Frameworks
• 3412 – Message Processing and Dispatching for the Simple Network Management Protocol (SNMP)
• 3414 – User-based Security Model (USM) for version 3 of the Simple Network Management Protocol (SNMPv3)
• 3415 – View-based Access Control Model (VACM) for the Simple Network Management Protocol (SNMP)
• 3418 – Management Information Base (MIB) for the Simple Network Management Protocol (SNMP)
• rstpmib Internet draft
Supported on the FastIron Edge SwitchRFC 1850: OSPF Version 2 Management Information Base - Supported on FastIron Edge Switch devices beginning with release 03.1.02.
Partially Supported StandardsPortions of the following standard MIBs are supported on the Foundry devices. Refer to the following sections for a list of supported objects:
• “RFC 1213: Management Information Base (MIB-II)” on page 3-4
• “RFC 1493: Definitions of Managed Objects for Bridges” on page 3-7
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• “RFC 1643: Ethernet-Like Interface Types” on page 3-8
• “RFC 1742: AppleTalk Management Information Base II” on page 3-8
• “RFC 1757: Remote Network Monitoring Management Information Base” on page 3-9
• “RFC 2096: IP Forwarding Table MIB” on page 3-9
• “RFC 2233: The Interfaces Group MIB using SMIv2” on page 3-10
• “RFC 2515: Definitions of Textual Conventions and Object Identities for ATM Management” on page 3-11
• “RFC 2674: Definitions of Managed Objects for Bridges with Traffic Classes, Multicast Filtering and Virtual LAN Extensions” on page 3-11
• “RFC 2932 IPv4 Multicast Routing MIB” on page 3-11 (devices running Enterprise software release 08.0.00.)
• “RFC 2933 IGMP MIB” on page 3-13 (devices running Enterprise software release 08.0.00.)
• “RFC 2934 PIM MIB for IPv4” on page 3-15 (devices running Enterprise software release 08.0.00.)
• “RFC 3176: InMon Corporation’s sFlow: A Method for Monitoring Traffic in Switched And Routed Networks.” on page 3-18
• “RFC 3815: Managed Objects for the Multiprotocol Label Switching (MPLS) and Label Distribution Protocol (LDP)” on page 3-19
• “RFC 4273: Definitions of Managed Objects for BGP-4” on page 3-24
• “RFC 4444: Management Information Base for Intermediate System to Intermediate System (IS-IS)” on page 3-25
LLDP/LLDP-MED MIB SupportThe following standard MIBs are supported on Foundry devices with LLDP/LLDP-MED capability.
The following MIBs are in the 802.1AB standard, Station and Media Access Control Connectivity Discovery.
• LLDP-MED
• LLDP-EXT-DOT1-MIB
• LLDP-EXT-DOT3-MIB
The following MIB is in the ANSI/TIA-1057 standard, LLDP for Media Endpoint Devices.
• LLDP-EXT-MED-MIB
RFC 1213: Management Information Base (MIB-II)The following objects from RFC1213 are supported in Foundry devices.
Object Group Name Object Identifier
system 1.3.6.1.2.1.1
interfaces 1.3.6.1.2.1.2
ifTable 1.3.6.1.2.1.2.2
ifEntry 1.3.6.1.2.1.2.2.1
ifIndex (See note below.) 1.3.6.1.2.1.2.2.1.1
ip 1.3.6.1.2.1.4
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Supported Standard MIBs
The following groups from RFC 1213 are not supported.
• at
NOTE: The table ipNetToMediaTable (OID 1.3.6.1.2.1.4.22) is used instead of the atTable. The atTable has been obsoleted in RFC 1213.Configuration Considerations when using the ipNetToMediaTable Foundry does not support disabling forwarding using ipForwarding objects.Foundry does not support changing dynamic ARP entries using ipNetToMediaType. You may only create or delete static ARP entries.
• egp
NOTE:
The ifIndex values allocated for physical ports do not change as modules are inserted and removed. However, they may have changed between software releases of Foundry products to accommodate a greater number of ports per module.
In IronWare software previous to release 07.1.xx, a block of 32 ifIndex values was allocated for each slot. Ports in slot 1 would have ifIndex values from 1 to 32, slot 2 would have values from 33 to 64, and so on.
In IronWare TrafficWorks software release 07.2.xx:
• The number of allocated ifindex was changed to allow 64 ports for modules. Ports in slot 1 would have ifIndex values from 1 to 64, slot 2 would have values from 65 to 128, and so on.
• Virtual and loopback interface ifIndex values are allocated from ranges above those used for physical ports
• ATM subinterfaces and PVCs have ifIndex values allocated in a dynamic fashion, which is not readily predictable.
In IronWare software release 07.5.00 and TrafficWorks software release 08.0.00, the following blocks of ifIndexes have been allocated:
Physical ports: 1 – 680 (48-T blades * 14 slots + 8 management ports)
VE: 255 (configuratble to 2048)
Loopback: : 8
Multicast tunnel 32
GRE IP tunnel 4
ATM subinterface 10
Unused 10
MPLS tunnel 8192
PVC tunnel 4096
icmp 1.3.6.1.2.1.5
tcp 1.3.6.1.2.1.6
udp 1.3.6.1.2.1.7
transmission 1.3.6.1.2.1.10
snmp 1.3.6.1.2.1.11
rmon 1.3.6.1.2.1.16
dot1dBridge 1.3.6.1.2.1.17
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In NetIron XMR and NetIron MLX, starting with software release 03.7.00, the number of ifindexes allocated per module has been reduced from 40 to 20 to accommodate the double port density due to the introduction of the 32-slot chassis. This change affects the ifindex for Slot 2 and higher. If you need the ifindexes to remain at 40 (for example, for backward compatibility), issue the snmp-server max-ifindex-per-module 40 CLI command; otherwise, the default is 20.
In BigIron RX, the ifindex per slot is 64.
These allocations can change in future releases.
NOTE: In the XMR/MLX Multi-Service IronWare software release 03.6.00 and later, every trunk group will appear as a row within the ifTable and ifXTable. The ifIndex range involves all the physical ports, virtual ports, loopback ports, multicast tunnels, GRE tunnels and MPLS tunnels in that order. The value of ifIndex will start after the MPLS tunnel interfaces, which is currently at the end of the ifIndex range.
Use the Get operations on snInterfaceLookupIfIndex (indexed by ifIndex) to get InterfaceId (in a simple OID form)
These allocations are subject to change between releases.
NOTE: In the BigIron RX Multi-Service IronWare software release 02.5.00 and later, every trunk group will appear as a row within the ifTable and ifXTable.
Use the Get operations on snInterfaceLookupIfIndex (indexed by ifIndex) to get InterfaceId (in a simple OID form)
Table 3.1: XMR/MLX Index Ranges
4-slot 8-slot 16-slot 32-slot Allocation
Physical port 1-160 1-320 1-640 1-1280 20 per slot (Release 3.7 and later)
40 per slot (Releases prior to 3.7)
Mgmt port 2 2 2 2 1 active, 1 stanby
Virtual port 255 default, 40 minimum, 4096 maximum
255 default, 40 minimum, 4096 maximum
255 default, 40 minimum, 4096 maximum
255 default, 40 minimum, 4096 maximum
Loopback port
64 default 64 default 64 default 64 default
Mcast port 32 32 32 32
GRE tunnels 256 default, 1 min, 8192 maximum
256 default, 1 min, 8192 maximum
256 default, 1 min, 8192 maximum
256 default, 1 min, 8192 maximum
Unused 10 10 10 10
MPLS tunnels 16384 16384 16384 16384
Trunk 128 default, 128 min, max 256
128 default, 128 min, max 256
128 default, 128 min, max 256
128 default, 128 min, max 256
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Supported Standard MIBs
These allocations are subject to change between releases.
RFC 1493: Definitions of Managed Objects for BridgesThe following groups are supported in Foundry devices.
NOTE: RFC 4188 obsoletes RFC 1493 on the NetIron XMR Series routers and the NetIron MLX Series routers Mutli-Service IronWare software release 03.6.00 and later.
Table 3.2: BigIron RX Index Ranges
4-slot 8-slot 16-slot 32-slot Allocation
Physical port 1-192 1-384 1-768 1-1536 64 per slot (Release 02.5.00 and later)
48 per slot (Releases prior to 02.5.00)
Mgmt port 2 2 2 2 1 active, 1 stanby
Virtual port 255 default, 40 minimum, 4096 maximum
255 default, 40 minimum, 4096 maximum
255 default, 40 minimum, 4096 maximum
255 default, 40 minimum, 4096 maximum
Loopback port
64 default 64 default 64 default 64 default
Mcast port 32 32 32 32
GRE tunnels 256 default, 1 min, 8192 maximum
256 default, 1 min, 8192 maximum
256 default, 1 min, 8192 maximum
256 default, 1 min, 8192 maximum
Unused 10 10 10 10
Trunk 128 default, 128 min, max 256
128 default, 128 min, max 256
128 default, 128 min, max 256
128 default, 128 min, max 256
Object Group Name Object Identifier
dot1dBridge 1.3.6.1.2.1.17
dot1dBase 1.3.6.1.2.1.17.1
dot1dStp 1.3.6.1.2.1.17.2
dot1dTp 1.3.6.1.2.1.17.4
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NOTE: The dot1dTpFdbTable (OID 1.3.6.1.2.1.17.4) in RFC 1493 is used to find dynamically learned MAC addresses. Statically configured MAC addresses are in the snFdbTable (refer to “Forwarding Database Static Table Information” on page 12-4).
NOTE: The SNMP MIB object dot1dDtpPortTable (OID: 1.3.6.1.2.1.17.2.15) does not display information for tagged ports that belong to an 802.1W RSTP configuration. The design of that MIB table is based on Single STP standard, and does not accommodate Multiple STPs. Therefore, the table displays information only for SSTP and for untagged port.
NOTE: The MIB 4188 has been converted to SMIv2 format. The object dot1dStpPortPathCost32 was added to support IEEE 802. The existing MIB dot1dStpPortPathCost has upper range of 65535. Over that value, this MIB stays at the upper value and user should access dot1dStpPortPathCost32 which has a bigger upper range value.
RFC 1643: Ethernet-Like Interface TypesThe following groups are supported in Foundry devices.
NOTE: RFC 2665 obsoletes RFC 1643 on the NetIron Mutli-Service XMR Series routers and the NetIron Mutli-Service MLX Series routers .
RFC 1742: AppleTalk Management Information Base IIThe following groups from this RFC are supported in Foundry devices.
Object Group Name Object Identifier
dot3 1.3.6.1.2.1.10.7
dot3StatsTable 1.3.6.1.2.1.10.7.2
dot3CollTable 1.3.6.1.2.1.10.7.5
dot3Tests 1.3.6.1.2.1.10.7.6
dot3Errors 1.3.6.1.2.1.10.7.7
dot3ChipSets 1.3.6.1.2.1.10.7.8
Object Group Name Object Identifier
appletalk 1.3.6.1.2.1.13
aarp 1.3.6.1.2.1.13.2
atport 1.3.6.1.2.1.13.3
ddp 1.3.6.1.2.1.13.4
rtmp 1.3.6.1.2.1.13.5
zipRouter 1.3.6.1.2.1.13.7
rtmpStub 1.3.6.1.2.1.13.16
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Supported Standard MIBs
The following object groups from RFC 1742 are not supported in Foundry devices.
• llap
• ddp
• kip
• nbp
• atecho
• atp
• pap
• asp
• adsp
• atportptop
RFC 1757: Remote Network Monitoring Management Information BaseThe following groups from this RFC are supported in Foundry devices.
The following object groups in RFC 1757 are not supported in Foundry devices.
• hosts
• hostTopN
• matrix
• filter
• capture (packet capture)
RFC 2096: IP Forwarding Table MIBThe following MIB objects can be used to read the routing table on a BigIron MG8, NetIron XMR, NetIron MLX, and ServerIron devices.
zipEndNode 1.3.6.1.2.1.13.17
perPort 1.3.6.1.2.1.13.18
Object Group Name Object Identifier
rmon 1.3.6.1.2.1.16
statistics 1.3.6.1.2.1.16.1
history 1.3.6.1.2.1.16.2
alarm 1.3.6.1.2.1.16.3
event 1.3.6.1.2.1.16.9
Object Group Name Object Identifier
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RFC 2233: The Interfaces Group MIB using SMIv2The following groups from this RFC are supported in Foundry devices.
NOTE: RFC 2863 is supported on the NetIron XMR Series routers and the NetIron MLX Series routers Mutli-Service IronWare software release 03.6.00 and later. RFC 2863 obsoletes RFC 2233.
1.3.6.1.2.1.4.24.4.1.1 ipCidrRouteDest
1.3.6.1.2.1.4.24.4.1.2 ipCidrRouteMask
1.3.6.1.2.1.4.24.4.1.3 ipCidrRouteTos
1.3.6.1.2.1.4.24.4.1.4 ipCidrRouteNextHop
1.3.6.1.2.1.4.24.4.1.5 ipCidrRouteIfIndex
1.3.6.1.2.1.4.24.4.1.6 ipCidrRouteType
1.3.6.1.2.1.4.24.4.1.7 ipCidrRouteProto
1.3.6.1.2.1.4.24.4.1.8 ipCidrRouteAge
1.3.6.1.2.1.4.24.4.1.9 ipCidrRouteInfo
1.3.6.1.2.1.4.24.4.1.10 ipCidrRouteNextHopAS
1.3.6.1.2.1.4.24.4.1.11 ipCidrRouteMetric1
1.3.6.1.2.1.4.24.4.1.12 ipCidrRouteMetric2
1.3.6.1.2.1.4.24.4.1.13 ipCidrRouteMetric3
1.3.6.1.2.1.4.24.4.1.14 (BigIron MG8, NetIron XMR, and NetIron MLX only)
ipCidrRouteMetric4
1.3.6.1.2.1.4.24.4.1.15 (BigIron MG8, NetIron XMR, and NetIron MLX only)
ipCidrRouteMetric5
1.3.6.1.2.1.4.24.4.1.16 (BigIron MG8, NetIron XMR, and NetIron MLX only)
ipCidrRouteStatus
Object Group Name Object Identifier
ifMIB 1.3.6.1.2.1.31
ifMIBObjects 1.3.6.1.2.1.31.1
ifXtable 1.3.6.1.2.1.31.1.1
ifStackTable 1.3.6.1.2.1.31.1.2
ifConformance 1.3.6.1.2.1.31.2
ifCounterDiscontinuityGroup
NOTE: Supported on the NetIron XMR Series routers and the NetIron MLX Series routers Mutli-Service IronWare software release 03.6.00 and later.
1.3.6.1.2.1.31.2.1.13
3-10 © 2008 Foundry Networks, Inc. April 2008
Supported Standard MIBs
RFC 2515: Definitions of Textual Conventions and Object Identities for ATM Management
Only The following objects groups from RFC 2515 are supported in Foundry devices.
Other object groups from this RFC are not supported.
RFC 2674: Definitions of Managed Objects for Bridges with Traffic Classes, Multicast Filtering and Virtual LAN Extensions
The following groups from this RFC are supported in Foundry devices.
RFC 2932 IPv4 Multicast Routing MIBSupport for RFC 2932 is available on the following devices:
• Devices running Enterprise software release 08.0.00 and later
• NetIron XMR and NetIron MLX Series devices
Support for the RFC in these devices is presented below.
Object Group Name Object Identifier
atmMIB 1.3.6.1.2.1.37
atmMIBObjects 1.3.6.1.2.1.37.1
atmInterfaceConfTable 1.3.6.1.2.1.37.1.2
atmInterfaceTCTable 1.3.6.1.2.1.37.1.4
aal5VccTable 1.3.6.1.2.1.37.1.12
atmTCMIB 1.3.6.1.2.1.37.3
Object Group Name Object Identifier
pBridgeMib 1.3.6.1.2.1.17.6
qBridgeMib 1.3.6.1.2.1.17.7
Object Object Identifier Supported?
ipMRouteEnable 1.3.6.1.2.1.83.1.1.1 Yes
ipMRouteEntryCount 1.3.6.1.2.1.83.1.1.2.1 Yes
April 2008 © 2008 Foundry Networks, Inc. 3-11
Foundry Management Information Base Reference
ipMRouteTable (IP multicast route table)
ipMRouteNextHopTable (IP multicast next hop table)“Next hop” in this table refers to downstream traffic.
Object Object Identifier Supported?
ipMRouteGroup 1.3.6.1.2.1.83.1.1.2.1.1 Yes
ipMRouteSource 1.3.6.1.2.1.83.1.1.2.1.2 Yes. Returns the IP address of the multicast server.
ipMRouteSourceMask 1.3.6.1.2.1.83.1.1.2.1.3 Yes. Always shows “1”.
ipMRouteUpstreamNeighbor 1.3.6.1.2.1.83.1.1.2.1.4 Yes
ipMRouteInIfIndex 1.3.6.1.2.1.83.1.1.2.1.5 Yes
ipMRouteUpTime 1.3.6.1.2.1.83.1.1.2.1.6 Yes
ipMRouteExpiryTime 1.3.6.1.2.1.83.1.1.2.1.7 Yes
ipMRoutePkts 1.3.6.1.2.1.83.1.1.2.1.8 No
ipMRouteDifferentInIfPackets 1.3.6.1.2.1.83.1.1.2.1.9 Yes
ipMRouteOctets 1.3.6.1.2.1.83.1.1.2.1.10 No
ipMRouteProtocol 1.3.6.1.2.1.83.1.1.2.1.11 Yes
ipMRouteRtProto 1.3.6.1.2.1.83.1.1.2.1.12 Yes
ipMRouteRtAddress 1.3.6.1.2.1.83.1.1.2.1.13 Yes. Returns the IP address of the multicast server.
ipMRouteRtMask 1.3.6.1.2.1.83.1.1.2.1.14 Yes. Always shows “1”.
ipMRouteRtType 1.3.6.1.2.1.83.1.1.2.1.15 Yes
ipMRouteHCOctets 1.3.6.1.2.1.83.1.1.2.1.16 No. Always shows “0”.
Object Object Identifier Supported?
ipMRouteNextHopGroup 1.3.6.1.2.1.83.1.1.3.1.1 Yes
ipMRouteNextHopSource 1.3.6.1.2.1.83.1.1.3.1.2 Yes
ipMRouteNextHopSourceMask 1.3.6.1.2.1.83.1.1.3.1.3 Yes
ipMRouteNextHopIfIndex 1.3.6.1.2.1.83.1.1.3.1.4 Yes
ipMRouteNextHopAddress 1.3.6.1.2.1.83.1.1.3.1.5 Yes
ipMRouteNextHopState 1.3.6.1.2.1.83.1.1.3.1.6 Yes. Always shows forwarding(2).
ipMRouteNextHopUpTime 1.3.6.1.2.1.83.1.1.3.1.7 No. Always shows “0”.
ipMRouteNextHopExpiryTime 1.3.6.1.2.1.83.1.1.3.1.8 No. Always shows “0”.
ipMRouteNextHopClosestMemberHop 1.3.6.1.2.1.83.1.1.3.1.9 No. Always shows “0”.
3-12 © 2008 Foundry Networks, Inc. April 2008
Supported Standard MIBs
ipMRouteInterfaceTable (IP multicast route table for interfaces)
IP Multicast Scope Boundary Table
ipMRouteScopeNameTable (IP multicast scope group name table)All objects in this table are supported.
RFC 2933 IGMP MIBSupport for RFC 2933 is available on the following devices:
• Devices running Enterprise software release 08.0.00 and later
• NetIron XMR and NetIron MLX Series devices
Support for the RFC in these devices is presented below.
ipMRouteNextHopProtocol 1.3.6.1.2.1.83.1.1.3.1.10 Yes
ipMRouteNextHopPkts 1.3.6.1.2.1.83.1.1.3.1.11 No. Always shows “0”.
Object Object Identifier Supported?
ipMRouteInterfaceIfIndex 1.3.6.1.2.1.83.1.1.4.1.1 Yes
ipMRouteInterfaceTtl 1.3.6.1.2.1.83.1.1.4.1.2 Yes. Range: 1—31
ipMRouteInterfaceProtocol 1.3.6.1.2.1.83.1.1.4.1.3 Yes
ipMRouteInterfaceRateLimit 1.3.6.1.2.1.83.1.1.4.1.4 No
ipMRouteInterfaceInMcastOctets 1.3.6.1.2.1.83.1.1.4.1.5 Yes. Returns packet count
ipMRouteInterfaceOutMcastOctets 1.3.6.1.2.1.83.1.1.4.1.6 Yes. Returns packet count
ipMRouteInterfaceHCInMcastOctets 1.3.6.1.2.1.83.1.1.4.1.7 Yes. Returns packet count
ipMRouteInterfaceHCOutMcastOctets 1.3.6.1.2.1.83.1.1.4.1.8 Yes. Returns packet count
Object Object Identifier Supported?
IpMRouteBoundaryIfIndex 1.3.6.1.2.1.83.1.1.5.1.1 Yes
IpMRouteBoundaryAddress 1.3.6.1.2.1.83.1.1.5.1.2 Yes. Value is obtained from ACLs.
IpMRouteBoundaryAddressMask 1.3.6.1.2.1.83.1.1.5.1.3 Yes. Value is obtained from ACLs.
IpMRouteBoundaryStatus 1.3.6.1.2.1.83.1.1.5.1.4 Yes. Read only.
Object Object Identifier Supported?
April 2008 © 2008 Foundry Networks, Inc. 3-13
Foundry Management Information Base Reference
igmpInterfaceTable (IGMP Interface Table)
igmpCacheTable (IGMP Cache Table)
Object Object Identifier Supported?
igmpInterfaceIfIndex 1.3.6.1.2.1.85.1.1.1.1 Yes
igmpInterfaceQueryInterval 1.3.6.1.2.1.85.1.1.1.2 Yes. Global value only.
igmpInterfaceStatus 1.3.6.1.2.1.85.1.1.1.3 Yes
igmpInterfaceVersion 1.3.6.1.2.1.85.1.1.1.4 Yes
igmpInterfaceQuerier 1.3.6.1.2.1.85.1.1.1.5 Yes
igmpInterfaceQueryMaxResponseTime 1.3.6.1.2.1.85.1.1.1.6 Yes. Global value only.
igmpInterfaceQuerierUpTime 1.3.6.1.2.1.85.1.1.1.7 Yes
igmpInterfaceQuerierExpiryTime 1.3.6.1.2.1.85.1.1.1.8 Yes
igmpInterfaceVersion1QuerierTimer 1.3.6.1.2.1.85.1.1.1.9 Yes, but only the following values are supported:
• 0 = no V1 querier
• 1 = no time
igmpInterfaceWrongVersionQueries 1.3.6.1.2.1.85.1.1.1.10 Yes
igmpInterfaceJoins 1.3.6.1.2.1.85.1.1.1.11 Yes
igmpInterfaceProxyIfIndex 1.3.6.1.2.1.85.1.1.1.12 No
igmpInterfaceGroups 1.3.6.1.2.1.85.1.1.1.13 Yes
igmpInterfaceRobustness 1.3.6.1.2.1.85.1.1.1.14 Yes. Global value only.
igmpInterfaceLastMemQueryIntvl 1.3.6.1.2.1.85.1.1.1.15 Yes
Object Object Identifier Supported?
igmpCacheAddress 1.3.6.1.2.1.85.1.2.1.1 Yes
igmpCacheIfIndex 1.3.6.1.2.1.85.1.2.1.2 Yes
igmpCacheSelf 1.3.6.1.2.1.85.1.2.1.3 Yes
igmpCacheLastReporter 1.3.6.1.2.1.85.1.2.1.4 Yes
igmpCacheUpTime 1.3.6.1.2.1.85.1.2.1.5 Yes
igmpCacheExpiryTime 1.3.6.1.2.1.85.1.2.1.6 Yes
igmpCacheStatus 1.3.6.1.2.1.85.1.2.1.7 Yes
igmpCacheVersion1HostTimer 1.3.6.1.2.1.85.1.2.1.8 Yes
3-14 © 2008 Foundry Networks, Inc. April 2008
Supported Standard MIBs
RFC 2934 PIM MIB for IPv4Support for RFC 2934 is available on the following devices:
• Devices running Enterprise software release 08.0.00 and later
• NetIron XMR and NetIron MLX Series devices
Support for the RFC in these devices is presented below.
pimInterfaceTable (PIM Interface Table)
pimNeighborTable (PIM Neighbor Table)
pimIpMRouteTable (PIM IP Multicast Route Table)
NOTE: The PIM IP Multicast Route Table MIBs are not supported on the following products:
• BigIron RX
• NetIron XMR
Object Object Identifier Supported?
pimJoinPruneInterval 1.3.6.1.3.61.1.1.1 Yes
Object Object Identifier Supported?
pimInterfaceIfIndex 1.3.6.1.3.61.1.1.2.1.1 Yes
pimInterfaceAddress 1.3.6.1.3.61.1.1.2.1.2 Yes
pimInterfaceNetMask 1.3.6.1.3.61.1.1.2.1.3 Yes
pimInterfaceMode 1.3.6.1.3.61.1.1.2.1.4 Yes
pimInterfaceDR 1.3.6.1.3.61.1.1.2.1.5 Yes
pimInterfaceHelloInterval 1.3.6.1.3.61.1.1.2.1.6 Yes. Global value only.
pimInterfaceStatus 1.3.6.1.3.61.1.1.2.1.7 Yes
pimInterfaceJoinPruneInterval 1.3.6.1.3.61.1.1.2.1.8 Yes. Global value only.
pimInterfaceCBSRPreference 1.3.6.1.3.61.1.1.2.1.9 Yes. Global value only.
Object Object Identifier Supported?
pimNeighborAddress 1.3.6.1.3.61.1.1.3.1.1 Yes
pimNeighborIfIndex 1.3.6.1.3.61.1.1.3.1.2 Yes
pimNeighborUpTime 1.3.6.1.3.61.1.1.3.1.3 Yes
pimNeighborExpiryTime 1.3.6.1.3.61.1.1.3.1.4 Yes
pimNeighborMode 1.3.6.1.3.61.1.1.3.1.5 Yes
April 2008 © 2008 Foundry Networks, Inc. 3-15
Foundry Management Information Base Reference
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
pimIpMRouteNextHopTable (PIM Next Hop Table) The pimIpMRouteNextHopTable is not supported.
NOTE: The pimIpMRouteNextHopTable MIBs are not supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
pimRpTable (PIM RP Table)
Object Object Identifier Supported?
pimIpMRouteUpstreamAssertTimer 1.3.6.1.3.61.1.1.4.1.1 Yes
pimIpMRouteAssertMetric 1.3.6.1.3.61.1.1.4.1.2 Yes
pimIpMRouteAssertMetricPref 1.3.6.1.3.61.1.1.4.1.3 Yes
pimIpMRouteAssertRPTBit 1.3.6.1.3.61.1.1.4.1.4 Yes
pimIpMRouteFlags 1.3.6.1.3.61.1.1.4.1.5 Yes
Object Object Identifier Supported?
pimRPGroupAddress 1.3.6.1.3.61.1.1.5.1.1 Yes, but read-only and only active groups.
pimRPAddress 1.3.6.1.3.61.1.1.5.1.2 Yes, but read-only.
pimRPState 1.3.6.1.3.61.1.1.5.1.3 Yes, but read-only and value is always up(1).
pimRPStateTimer 1.3.6.1.3.61.1.1.5.1.4 No
pimRPLastChange ( 1.3.6.1.3.61.1.1.5.1.5 No
pimRPRowStatus 1.3.6.1.3.61.1.1.5.1.6 Yes, but read-only.
3-16 © 2008 Foundry Networks, Inc. April 2008
Supported Standard MIBs
pimRpSetTable (PIM RP Set Table)
pimCandidateRPTable (PIM Candidate-RP Table)
pimComponentTable (PIM Component Table)SET operation for this table is not available, since the BSR is in one domain only. This table has only one row.
Use the CLI command ip pim border at the interface level to stop the flooding of the bootstrap messages.
NOTE: The pimComponentTable MIBs are not supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
Object Object Identifier Supported?
pimRpSetGroupAddress 1.3.6.1.3.61.1.1.6.1.1 Yes
pimRpSetGroupMask 1.3.6.1.3.61.1.1.6.1.2 Yes
pimRpSetAddress 1.3.6.1.3.61.1.1.6.1.3 Yes
pimRpSetHoldTime 1.3.6.1.3.61.1.1.6.1.4 Yes
pimRpSetExpiryTime 1.3.6.1.3.61.1.1.6.1.5 Yes
pimRpSetComponent 1.3.6.1.3.61.1.1.6.1.6 No
Object Object Identifier Supported?
pimCandidateRPGroupAddress 1.3.6.1.3.61.1.1.11.1.1 Yes
pimCandidateRPGroupMask 1.3.6.1.3.61.1.1.11.1.2 Yes
pimCandidateRPAddress 1.3.6.1.3.61.1.1.11.1.3 Yes
pimCandidateRPRowStatus 1.3.6.1.3.61.1.1.11.1.4 Yes
Object Object Identifier Supported?
pimComponentIndex 1.3.6.1.3.61.1.1.12.1.1 Yes
pimComponentBSRAddress 1.3.6.1.3.61.1.1.12.1.2 Yes
pimComponentBSRExpiryTime 1.3.6.1.3.61.1.1.12.1.3 Yes
pimComponentCRPHoldTime 1.3.6.1.3.61.1.1.12.1.4 Yes
April 2008 © 2008 Foundry Networks, Inc. 3-17
Foundry Management Information Base Reference
RFC 3176: InMon Corporation’s sFlow: A Method for Monitoring Traffic in Switched And Routed Networks.
RFC 3176 MIBS enable you to configure the sFlow Export feature. Support for this RFC is available on the following devices:
• Devices running Enterprise IronWare software release 07.5.01 and later provide
• NetIron XMR and NetIron MLX Series devices
The following groups from this RFC are supported in these Foundry devices.
pimComponentStatus 1.3.6.1.3.61.1.1.12.1.5 Yes, but read-only
Object Name Object Identifier Description
sFlowAgent 1.3.6.1.4.1.4300.1.1
sFlowVersion 1.3.6.1.4.1.4300.1.1.1 Returns a version string (for example, “1.2; Foundry Networks”
sFlowAgentAddressType 1.3.6.1.4.1.4300.1.1.2 Returns value 1 (ipv4)
sFlowAgentAddress 1.3.6.1.4.1.4300.1.1.3 Management IP
sFlowTable 1.3.6.1.4.1.4300.1.1.4 sFlow Table
sFlowDataSource 1.3.6.1.4.1.4300.1.1.4.1.1 ifIndex of sFlow port
sFlowOwner 1.3.6.1.4.1.4300.1.1.4.1.2 Always null. Not supported in the CLI.
sFlowTimeout 1.3.6.1.4.1.4300.1.1.4.1.3 Always 0. Not supported in the CLI.
sFlowPacketSamplingRate 1.3.6.1.4.1.4300.1.1.4.1.4 Port sampling rate. Set this value to 0 to disable sflow for a port.
sFlowCounterSamplingInterval 1.3.6.1.4.1.4300.1.1.4.1.5 Global counter poll interval
sFlowMaximumHeaderSize 1.3.6.1.4.1.4300.1.1.4.1.6 Always 128
sFlowMaximumDatagramSize 1.3.6.1.4.1.4300.1.1.4.1.7 Always 1400
sFlowCollectorAddressType 1.3.6.1.4.1.4300.1.1.4.1.8 Always 1 (ipv4)
sFlowCollectorAddress 1.3.6.1.4.1.4300.1.1.4.1.9 Address of first collector. For other collectors, use snSflowCollectorTable. (Refer to “sFlow Collector” on page 26-9.)
sFlowCollectorPort 1.3.6.1.4.1.4300.1.1.4.1.10 Port of first collector. For other collectors, use snSflowCollectorTable. (Refer to “sFlow Collector” on page 26-9.)
sFlowDatagramVersion 1.3.6.1.4.1.4300.1.1.4.1.11 Always 4
Object Object Identifier Supported?
3-18 © 2008 Foundry Networks, Inc. April 2008
Supported Standard MIBs
RFC 3815: Managed Objects for the Multiprotocol Label Switching(MPLS) and Label Distribution Protocol (LDP)
Multi-Service IronWare release 03.7.00 and later for the NetIron XMR /MLX Series provide support for RFC 3815, Managed Objects for the Multiprotocol Label Switching (MPLS),and Label Distribution Protocol (LDP). Support for this MIB enables configuration and monitoring of the Label Distribution Protocol (LDP).
mplsLdpLsr Objects
mplsLdpEntity Objects
mplsLdpEntity TableThis mplsLdpEntity table contains information about MPLS Label Distribution Protocol Entities which exist on this Label Switching Router (LSR) or Label Edge Router (LER).
NOTE: This table currently supports read-only access.
Object Name Object Identifier Supported
mplsLdpLsrId 1.3.6.1.2.1.10.166.4.1.1 Yes
mplsLdpLsrLoopDetectionCapable 1.3.6.1.2.1.10.166.4.1.2 Returns none(1) or hopCountAndPathVector(5)
Object Name Object Identifier Supported
mplsLdpEntityLastChange 1.3.6.1.2.1.10.166.4.1.2.1 Always returns 0.
mplsLdpEntityIndexNext 1.3.6.1.2.1.10.166.4.1.2.2 Always returns 0.
Object Name Object Identifier Supported
mplsLdpEntityLdpId 1.3.6.1.2.1.10.166.4.1.2.3.1.1 Index
mplsLdpEntityIndex 1.3.6.1.2.1.10.166.4.1.2.3.1.2 Index
mplsLdpEntityProtocolVersion 1.3.6.1.2.1.10.166.4.1.2.3.1.3 Yes
mplsLdpEntityAdminStatus 1.3.6.1.2.1.10.166.4.1.2.3.1.4 The administrative status of this LDP Entity.The values are:
• up(1) mapped to enable(1)
• down(2)/testing(3) mapped to disable(2)
April 2008 © 2008 Foundry Networks, Inc. 3-19
Foundry Management Information Base Reference
mplsLdpEntityOperStatus 1.3.6.1.2.1.10.166.4.1.2.3.1.5 Displays the operational status of this LDP Entity.The values are:
• up(1) mapped to enabled (2)
• down(2) mapped to disabled(3)
• testing(3) mapped to disabled(3)
• unknown(4) mapped to unknown(1)
• dormant(5) mapped to disabled(3)
• notpresent(6) mapped to disabled(3)
mplsLdpEntityTcpPort 1.3.6.1.2.1.10.166.4.1.2.3.1.6 Yes
mplsLdpEntityUdpDscPort 1.3.6.1.2.1.10.166.4.1.2.3.1.7 Yes
mplsLdpEntityMaxPduLength 1.3.6.1.2.1.10.166.4.1.2.3.1.8 Yes
mplsLdpEntityKeepAliveHoldTimer 1.3.6.1.2.1.10.166.4.1.2.3.1.9 Yes
mplsLdpEntityHelloHoldTimer 1.3.6.1.2.1.10.166.4.1.2.3.1.10 Yes
mplsLdpEntityInitSessionThreshold 1.3.6.1.2.1.10.166.4.1.2.3.1.11 Yes
mplsLdpEntityLabelDistMethod 1.3.6.1.2.1.10.166.4.1.2.3.1.12 Yes
mplsLdpEntityLabelRetentionMode 1.3.6.1.2.1.10.166.4.1.2.3.1.13 Yes
mplsLdpEntityPathVectorLimit 1.3.6.1.2.1.10.166.4.1.2.3.1.14 Yes
mplsLdpEntityHopCountLimit 1.3.6.1.2.1.10.166.4.1.2.3.1.15 Yes
mplsLdpEntityTransportAddrKind 1.3.6.1.2.1.10.166.4.1.2.3.1.16 Displays the IP address of the interface from which hello messages are sent is used as the transport address in the hello message.Returns interface(1)
mplsLdpEntityTargetPeer 1.3.6.1.2.1.10.166.4.1.2.3.1.17 Yes
mplsLdpEntityTargetPeerAddrType 1.3.6.1.2.1.10.166.4.1.2.3.1.18 Displays the type of the internetwork layer address used for the Extended Discovery.
Possible types:
• ipv4(1)
• ipv6(2)
• unknown(0)
Object Name Object Identifier Supported
3-20 © 2008 Foundry Networks, Inc. April 2008
Supported Standard MIBs
mplsLdpEntityStats TableThe mplsLdpEntityStats table is a read-only table which augments the mplsLdpEntityTable. This table keeps statistical information about the LDP Entities on the LSR. This table is read-only.
mplsLdpSession Objects
mplsLdpEntityTargetPeerAddr 1.3.6.1.2.1.10.166.4.1.2.3.1.19 Yes
mplsLdpEntityLabelType 1.3.6.1.2.1.10.166.4.1.2.3.1.20 Yes
mplsLdpEntityDiscontinuityTime 1.3.6.1.2.1.10.166.4.1.2.3.1.21 Yes
mplsLdpEntityStorageType 1.3.6.1.2.1.10.166.4.1.2.3.1.22 Yes
mplsLdpEntityRowStatus 1.3.6.1.2.1.10.166.4.1.2.3.1.23 Yes
Object Name Object Identifier Supported
mplsLdpEntityStatsSessionAttempts 1.3.6.1.2.1.10.166.4.1.2.4.1.1 Yes
mplsLdpEntityStatsSessionRejectedNoHelloErrors
1.3.6.1.2.1.10.166.4.1.2.4.1.2 Yes
mplsLdpEntityStatsSessionRejectedAdErrors
1.3.6.1.2.1.10.166.4.1.2.4.1.3 Yes
mplsLdpEntityStatsSessionRejectedMaxPduErrors
1.3.6.1.2.1.10.166.4.1.2.4.1.4 Yes
mplsLdpEntityStatsSessionRejectedLRErrors
1.3.6.1.2.1.10.166.4.1.2.4.1.5 Yes
mplsLdpEntityStatsBadLdpIdentifierErrors
1.3.6.1.2.1.10.166.4.1.2.4.1.6 Yes
mplsLdpEntityStatsBadPduLengthErrors 1.3.6.1.2.1.10.166.4.1.2.4.1.7 Yes
mplsLdpEntityStatsBadMessageLengthErrors
1.3.6.1.2.1.10.166.4.1.2.4.1.8 Yes
mplsLdpEntityStatsBadTlvLengthErrors 1.3.6.1.2.1.10.166.4.1.2.4.1.9 Yes
mplsLdpEntityStatsMalformedTlvValueErrors
1.3.6.1.2.1.10.166.4.1.2.4.1.10 Yes
mplsLdpEntityStatsKeepAliveTimerExpErrors
1.3.6.1.2.1.10.166.4.1.2.4.1.11 Yes
mplsLdpEntityStatsShutdownReceivedNotifications
1.3.6.1.2.1.10.166.4.1.2.4.1.12 Yes
mplsLdpEntityStatsShutdownSentNotifications
1.3.6.1.2.1.10.166.4.1.2.4.1.13 Yes
Object Name Object Identifier Supported
Object Name Object Identifier Supported
April 2008 © 2008 Foundry Networks, Inc. 3-21
Foundry Management Information Base Reference
mplsLdpPeer TableThe mplsLdpPeer table has Information about LDP peers known by Entities in the mplsLdpEntityTable. The information in this table is based on information from the Entity-Peer interaction during session initialization but is not appropriate for the mplsLdpSessionTable, because objects in this table may or may not be used in session establishment.
mplsLdpSession TableThe mplsLdpSession table contains information of sessions between the LDP Entities and LDP Peers. This table augments the mplsLdpPeerTable. Each row in this table represents a single session. This table is read-only.
mplsLdpPeerLastChange 1.3.6.1.2.1.10.166.4.1.3.1 Unsupported, Always returns 0
mplsLdpLspFecLastChange 1.3.6.1.2.1.10.166.4.1.3.2 Yes
Object Name Object Identifier Supported
mplsLdpPeerLdpId 1.3.6.1.2.1.10.166.4.1.3.2.1.1 Yes
mplsLdpPeerLabelDistMethod 1.3.6.1.2.1.10.166.4.1.3.2.1.2 Yes
mplsLdpPeerPathVectorLimit 1.3.6.1.2.1.10.166.4.1.3.2.1.3 Yes
mplsLdpPeerTransportAddrType 1.3.6.1.2.1.10.166.4.1.3.2.1.4 Displays the type of the Internet address for themplsLdpPeerTransportAddr object.
Possible types:
• ipv4(1)
• ipv6(2)
• unknown(0)
mplsLdpPeerTransportAddr 1.3.6.1.2.1.10.166.4.1.3.2.1.5 Yes
Object Name Object Identifier Supported
mplsLdpSessionStateLastChange 1.3.6.1.2.1.10.166.4.1.3.3.1.1 Unsupported. Returns 0
mplsLdpSessionState 1.3.6.1.2.1.10.166.4.1.3.3.1.2 Yes
mplsLdpSessionRole 1.3.6.1.2.1.10.166.4.1.3.3.1.3 Yes
mplsLdpSessionProtocolVersion 1.3.6.1.2.1.10.166.4.1.3.3.1.4 Yes
mplsLdpSessionKeepAliveHoldTimeRem 1.3.6.1.2.1.10.166.4.1.3.3.1.5 Yes
mplsLdpSessionKeepAliveTime 1.3.6.1.2.1.10.166.4.1.3.3.1.6 Yes
mplsLdpSessionMaxPduLength 1.3.6.1.2.1.10.166.4.1.3.3.1.7 Yes
mplsLdpSessionDiscontinuityTime 1.3.6.1.2.1.10.166.4.1.3.3.1.8 Yes
3-22 © 2008 Foundry Networks, Inc. April 2008
Supported Standard MIBs
mplsLdpSessionStats TableA table of statistics between the LDP entities and LDP peers. This table is read-only.
mplsLdpHelloAdjacency TableA table of hello adjacencies for the sessions. This table is read-only.
mplsFec Objects
mplsFec TableThe mplsFec table represents the FEC (Forwarding Equivalence Class) information associated with an LSP.
NOTE: This table currently supports read-only access.
Object Name Object Identifier Supported
mplsLdpSessionStatsUnknownMesTypeErrors
1.3.6.1.2.1.10.166.4.1.3.4.1.1 Yes
mplsLdpSessionStatsUnknownTlvErrors 1.3.6.1.2.1.10.166.4.1.3.4.1.2 Yes
Object Name Object Identifier Supported
mplsLdpHelloAdjacencyIndex 1.3.6.1.2.1.10.166.4.1.3.5.1. Index
mplsLdpHelloAdjacencyHoldTimeRem 1.3.6.1.2.1.10.166.4.1.3.5.1.1.2 Yes
mplsLdpHelloAdjacencyHoldTime 1.3.6.1.2.1.10.166.4.1.3.5.1.1.3 Yes
mplsLdpHelloAdjacencyType 1.3.6.1.2.1.10.166.4.1.3.5.1.1.4 Yes
Object Name Object Identifier Supported
mplsFecLastChange 1.3.6.1.2.1.10.166.4.1.3.8.1 Same data as mplsLdpLspFecLastChange
mplsFecIndexNext 1.3.6.1.2.1.10.166.4.1.3.8.2 Unsupported. Always returns 0.
Object Name Object Identifier Supported
mplsFecIndex 1.3.6.1.2.1.10.166.4.1.3.8.3.1.1 Index
mplsFecType 1.3.6.1.2.1.10.166.4.1.3.8.3.1.2 Yes
mplsFecAddrPrefixLength 1.3.6.1.2.1.10.166.4.1.3.8.3.1.3 Yes
April 2008 © 2008 Foundry Networks, Inc. 3-23
Foundry Management Information Base Reference
mplsLdpSessionPeerAddr TableThe mplsLdpSessionPeerAddr table 'extends' the mplsLdpSessionTable. This table is used to store Label Address Information from Label Address Messages received by this LSR from Peers. This table is read-only and should be updated when Label Withdraw Address Messages are received, i.e., Rows should be deleted as appropriate.
NOTE: Since more than one address may be contained in a Label Address Message, this table 'sparse augments', the mplsLdpSessionTable's information.
RFC 4273: Definitions of Managed Objects for BGP-4RFC 4273 is supported on the NetIron XMR Series routers and the NetIron MLX Series routers Mutli-Service IronWare software release 03.6.00 and later.
NOTE: The Definitions of Managed Objects for BGP-4 (OID 1.3.6.1.2.1.15.3) is used instead of RFC 1657. The Definitions of Managed Objects for the Fourth Version of the Border Gateway Protocol (BGP-4) using SMIv2 has been obsoleted in RFC 4273.
mplsFecAddrType 1.3.6.1.2.1.10.166.4.1.3.8.3.1.4 Displays the value of this object and the type of theInternet address.
Possible values:
• ipv4(1)
• ipv6(2)
• unknown(0)
mplsFecAddr 1.3.6.1.2.1.10.166.4.1.3.8.3.1.5 Yes
mplsFecStorageType 1.3.6.1.2.1.10.166.4.1.3.8.3.1.6 Yes
mplsFecRowStatus 1.3.6.1.2.1.10.166.4.1.3.8.3.1.7 Yes
Object Name Object Identifier Supported
mplsLdpSessionPeerAddrIndex 1.3.6.1.2.1.10.166.4.1.3.11.1.1 Index
mplsLdpSessionPeerNextHopAddrType 1.3.6.1.2.1.10.166.4.1.3.11.1.2 Displays the internetwork layer address type of this Next Hop Address as specified in the Label Address Message associated with this Session.
Possible values:
• ipv4(1)
• ipv6(2)
• unknown(0)
mplsLdpSessionPeerNextHopAddr 1.3.6.1.2.1.10.166.4.1.3.11.1.3 Yes
Object Group Name Object Identifier
3-24 © 2008 Foundry Networks, Inc. April 2008
Supported Standard MIBs
RFC 4444: Management Information Base for Intermediate System to Intermediate System (IS-IS)
This RFC is supported on the NetIron XMR Series routers and the NetIron MLX Series routers Mutli-Service IronWare software release 03.8.00 and later. Refer to the RFC for details. The sections below identify the scalars and tables that are implemented in the NetIron MLX Series routers Mutli-Service IronWare software release.
bgpPeerTable 1.3.6.1.2.1.15.3
bgpPeerEntry 1.3.6.1.2.1.15.3.1
bgpPeerIdentifier 1.3.6.1.2.1.15.3.1.1
bgpPeerState 1.3.6.1.2.1.15.3.1.2
bgpPeerAdminStatus 1.3.6.1.2.1.15.3.1.3
bgpPeerNegotiatedVersion 1.3.6.1.2.1.15.3.1.4
bgpPeerLocalAddr 1.3.6.1.2.1.15.3.1.5
bgpPeerLocalPort 1.3.6.1.2.1.15.3.1.6
bgpPeerRemoteAddr 1.3.6.1.2.1.15.3.1.7
bgpPeerRemotePort 1.3.6.1.2.1.15.3.1.8
bgpPeerRemoteAs 1.3.6.1.2.1.15.3.1.9
bgpPeerInUpdates 1.3.6.1.2.1.15.3.1.10
bgpPeerOutUpdates 1.3.6.1.2.1.15.3.1.11
bgpPeerInTotalMessages 1.3.6.1.2.1.15.3.1.12
bgpPeerOutTotalMessages 1.3.6.1.2.1.15.3.1.13
bgpPeerLastError 1.3.6.1.2.1.15.3.1.14
bgpPeerFsmEstablishedTransitions 1.3.6.1.2.1.15.3.1.15
bgpPeerFsmEstablishedTime 1.3.6.1.2.1.15.3.1.16
bgpPeerConnectRetryInterval 1.3.6.1.2.1.15.3.1.17
bgpPeerHoldTime 1.3.6.1.2.1.15.3.1.18
bgpPeerKeepAlive 1.3.6.1.2.1.15.3.1.19
bgpPeerHoldTimeConfigured 1.3.6.1.2.1.15.3.1.20
bgpPeerKeepAliveConfigured 1.3.6.1.2.1.15.3.1.21
bgpPeerMinASOriginationInterval 1.3.6.1.2.1.15.3.1.22
bgpPeerMinRouteAdvertisementInterval 1.3.6.1.2.1.15.3.1.23
bgpPeerInUpdateElapsedTime 1.3.6.1.2.1.15.3.1.24
April 2008 © 2008 Foundry Networks, Inc. 3-25
Foundry Management Information Base Reference
Scalar isisSysObjectThe following scaler objects are supported in the Foundry MIB; however, only read only access is provided.
Supported tablesThe following tables in RFC 4444 are supported; however only read-only access is allowed.
NOTE: Tables in RFC 4444 not listed in the table below are not supported. For example, the isisRATable is not supported.
Object Group Name Object Identifier Supported? Notes
isisSysVersion 1.3.6.1.2.1.138.1.1.1.1 Yes Always returns 1
isisSysLevelType 1.3.6.1.2.1.138.1.1.1.2 Yes • level1(1)
• Level2(2)
• level 1 and 2(3)
isisSysID 1.3.6.1.2.1.138.1.1.1.3 Yes
isisSysMaxPathSplits 1.3.6.1.2.1.138.1.1.1.4 Yes
isisSysMaxLSPGenInt 1.3.6.1.2.1.138.1.1.1.5 Yes
isisSysPollESHelloRate 1.3.6.1.2.1.138.1.1.1.6 No
isisSysWaitTime 1.3.6.1.2.1.138.1.1.1.7 No
isisSysAdminState 1.3.6.1.2.1.138.1.1.1.8 Yes • on(1)
• off(2)
isisSysL2toL1Leaking 1.3.6.1.2.1.138.1.1.1.9 Yes
isisSysMaxAge 1.3.6.1.2.1.138.1.1.1.10 Yes
isisSysReceiveLSPBufferSize 1.3.6.1.2.1.138.1.1.1.11 Yes
isisSysProtSupported 1.3.6.1.2.1.138.1.1.1.12 Yes BITS:
• ipv4(1)
• ipv6(2)
isisSysNotificationEnable 1.3.6.1.2.1.138.1.1.1.13 Yes
Object Group Name Object Identifier Comments
isisManAreaAddrTable 1.3.6.1.2.1.138.1.1.2
isisAreaAddrTable 1.3.6.1.2.1.138.1.1.3
isisSummAddrTable 1.3.6.1.2.1.138.1.1.4
isisRedistributeAddrTable 1.3.6.1.2.1.138.1.1.5
isisRouterTable 1.3.6.1.2.1.138.1.1.6
isisSysLevelTable 1.3.6.1.2.1.138.1.2.1
3-26 © 2008 Foundry Networks, Inc. April 2008
Supported Standard MIBs
NotificationsIS-IS notification is enabled by default. To disable notification, issue the command no snmp-server enable traps isis at the device CLI. Use the snmp-server enable traps isis to re-enable notification.
Table 3.3 list the notifications in RFC 4444 that are supported in Mutli-Service IronWare software release 03.8.00 and later.
NOTE: Only one IS-IS trap is generated for each notification type within a 60 second (1 minute) period. For example, if several authentication failure notification types occur within a 60 second period, only one trap is generated for the authentication failure notification type. This duration is different from what is specified in RFC 4444.
isisCircTable 1.3.6.1.2.1.138.1.3.2 The following objects from this table are not supported:
• isisCircMeshGroupEnabled - will return INACTIVE
• isisCircMeshGroup will return zero (0).
Also, the object isisCirc3WayEnabled is always ON for Pt 2 Pt.
isisCircLevelTable 1.3.6.1.2.1.138.1.4.1
isisSystemCounterTable 1.3.6.1.2.1.138.1.5.1
isisCircuitCounterTable 1.3.6.1.2.1.138.1.5.2
isisPacketCounterTable 1.3.6.1.2.1.138.1.5.3
isisIsAdjTable 1.3.6.1.2.1.138.1.6.1
isisIsAdjAreaAddrTable 1.3.6.1.2.1.138.1.6.2
isisIsAdjIPAddrTable 1.3.6.1.2.1.138.1.6.3
isisIsAdjProtSuppTable 1.3.6.1.2.1.138.1.6.4
isisIPRATable 1.3.6.1.2.1.138.1.8.1
isisLSPSummaryTable 1.3.6.1.2.1.138.1.9.1
isisLSPTLVTable 1.3.6.1.2.1.138.1.9.2
isisNOTIFICATION 1.3.6.1.2.1.138.1.10
Table 3.3: Support RFC 4444 Notifications
Object Group Name Object Identifier
isisDatabaseOverload 1.3.6.1.2.1.138.1.10.1
isisAttemptToExceedMaxSequence 1.3.6.1.2.1.138.1.10.4
isisIDLenMismatch 1.3.6.1.2.1.138.1.10.5
Object Group Name Object Identifier Comments
April 2008 © 2008 Foundry Networks, Inc. 3-27
Foundry Management Information Base Reference
Table 3.4 list the notifications in RFC 4444 that are not supported in Mutli-Service IronWare software release 03.8.00 and later.
Pseudo Wire MIB
Draft-ietf-pwe3-pw-mib-11.txtThe following Pseudo Wire (PW) MIB objects, as defined in draft-ietf-pwe3-pw-mib-11.txt, are supported on the following software releases:
• Multi-Service IronWare release 03.7.00 and later for the NetIron XMR Series
• Multi-Service IronWare software release 03.7.00 and later for the NetIron MLX Series
Draft-ietf-pwe3-pw-mib-11.txt obsoletes; however, some objects in draft-ietf-pwe3-pw-mib-06.txt are still supported on the NetIron XMR Series and NetIron MLX Series devices. (Refer to “Supported Objects in draft-ietf-pwe3-pw-mib-06.txt” on page 3-29
NOTE: Support for the following objects in draft-ietf-pwe3-pw-mib-11.txt provide read-only access.
isisMaxAreaAddressesMismatch 1.3.6.1.2.1.138.1.10.6
isisOwnLSPPurge 1.3.6.1.2.1.138.1.10.7
isisSequenceNumberSkip 1.3.6.1.2.1.138.1.10.8
isisAuthenticationFailure 1.3.6.1.2.1.138.1.10.10
isisAreaMismatch 1.3.6.1.2.1.138.1.10.12
isisAdjacencyChange 1.3.6.1.2.1.138.1.10.17
isisLSPErrorDetected 1.3.6.1.2.1.138.1.10.18
Table 3.4: Unsupport RFC 4444 Notifications
Object Group Name Object Identifier
isisManualAddressDrops 1.3.6.1.2.1.138.1.10.2
isisCorruptedLSPDetected 1.3.6.1.2.1.138.1.10.3
isisAuthenticationTypeFailure 1.3.6.1.2.1.138.1.10.9
isisVersionSkew 1.3.6.1.2.1.138.1.10.11
isisRejectedAdjacency 1.3.6.1.2.1.138.1.10.13
isisLSPTooLargeToPropagate 1.3.6.1.2.1.138.1.10.14
isisOrigLSPBuffSizeMismatch 1.3.6.1.2.1.138.1.10.15
isisProtocolsSupportedMismatch 1.3.6.1.2.1.138.1.10.16
Object Object Identifier Supported?
pwEnetTable fdry.3.1.4.1.1 Yes
Table 3.3: Support RFC 4444 Notifications
3-28 © 2008 Foundry Networks, Inc. April 2008
Supported Standard MIBs
Supported Objects in draft-ietf-pwe3-pw-mib-06.txtThe following Pseudo Wire (PW) MIB objects are the only objects in draft-ietf-pwe3-pw-mib-06.txt that are supported on the NetIron XMR Series and NetIron MLX Series devices. They are used to support draft-ietf-pwe3-pw-mib-11. This release supports read-only access. These MIB objects are supported on the following software releases:
• Multi-Service IronWare release 03.7.00 and later for the NetIron XMR Series
pwEnetEntry fdry.3.1.4.1.1.1 Yes
pwEnetPwInstance fdry.3.1.4.1.1.1.1 Yes
pwEnetPwVlan fdry.3.1.4.1.1.1.2 Yes
pwEnetVlanMode fdry.3.1.4.1.1.1.3 Yes
pwEnetPortVlan fdry.3.1.4.1.1.1.4 Yes
pwEnetPortIfIndex fdry.3.1.4.1.1.1.5 Yes
pwEnetPwIfIndex fdry.3.1.4.1.1.1.6 Yes
pwEnetRowStatus ffdry.3.1.4.1.1.1.7 Yes
pwEnetStorageType fdry.3.1.4.1.1.1.8 Yes
pwEnetStatsTable fdry.3.1.4.1.2 Yes
pwEnetStatsEntry fdry.3.1.4.1.2.1 Yes
pwEnetStatsIllegalVlan fdry.3.1.4.1.2.1.1 Yes
pwEnetStatsIllegalLength fdry.3.1.4.1.2.1.2 Yes
pwEnetConformance fdry.3.1.4.2 Yes
pwEnetGroups fdry.3.1.4.2.1 Yes
pwEnetGroup fdry.3.1.4.2.1.1 Yes
pwEnetStatsGroup fdry.3.1.4.2.1.2 Yes
pwEnetCompliances fdry.3.1.4.2.2 Yes
pwEnetModuleFullCompliance fdry.3.1.4.1.2.1.3 Yes
pwEnetModuleReadOnlyCompliance fdry.3.1.4.1.2.1.4 Yes
pwEnetGroup fdry.3.1.4.1.2.1.5 Yes
pwEnetStatsGroup fdry.3.1.4.1.2.1.6 Yes
Object Object Identifier Supported?
April 2008 © 2008 Foundry Networks, Inc. 3-29
Foundry Management Information Base Reference
• Multi-Service IronWare software release 03.7.00 and later for the NetIron MLX Series
Table 3.5: Comparision of Objects within drafts v.6 and v.11
Object Object Identifier Differences
pwPsnType fdry.3.1.2.1.2.1.4 pwPsnType is now of type IANAPwPsnTypeTC. The changes are highlighted below.
pwPsnType:
• mpls (1)
• l2tp (2)
• ip (3)
• mplsOverIp (4)
• gre (5)
• other (6)
IANAPwPsnTypeTC
• mpls (1)
• l2tp (2)
• udpOverIp (3)
• mplsOverIp (4)
• mplsOverGre (5)
• other (6)
pwAttachedPwIndex fdry.3.1.2.1.2.1.10 Type changed from PwIndexType to PwIndexOrZeroType.
pwFragmentCfgSize fdry.3.1.2.1.2.1.26 Added UNIT "bytes".
pwFcsRetentioncfg fdry.3.1.2.1.2.1.28 Name changed to pwFcsRetentionCfg.
pwOutboundVcLabel fdry.3.1.2.1.2.1.30 Renamed to pwOutboundLabel.
pwInboundVcLabel fdry.3.1.2.1.2.1.31 Renamed to pwInboundLabel.
pwStorageType fdry.3.1.2.1.2.1.45 Added DEFVAL nonvolatile
pwOamEnable fdry.3.1.2.1.2.1.46 Supported
pwIndexMappingEntry/pwIndexMappingVcType
fdry.3.1.2.1.7.1.1 Replaced by pwIndexMappingEntry/pwIndexMappingPwType
Type has changed from PwTypeTC to IANAPwTypeTC
pwIndexMappingEntry/pwIndexMappingVcID
fdry.3.1.2.1.7.1.2 Replaced by pwIndexMappingEntry/pwIndexMappingPwID
pwIndexMappingEntry/pwIndexMappingVcIndex
fdry.3.1.2.1.7.1.5 Replaced by pwIndexMappingEntry/pwIndexMappingPwIndex
3-30 © 2008 Foundry Networks, Inc. April 2008
Supported Standard MIBs
MPLS/BGP L3 VPN MIBMPLS/BGP L3 VPN MIB (draft-ietf-lwvpn-mpls-vpn-mib-07.txt) is supported on Mutli-Service IronWare software release 03.0.00 for the NetIron IMR 64, NetIron XMR, and the NetIron MLX.
• Mutli-Service IronWare software release 03.0.00 and later for the NetIron XMR Series routers
• Mutli-Service IronWare software release 03.1.00 and later for the NetIron MLX Series routers
NOTE: The following objects are implemeted as Read-only:
• mplsL3VpnIfConfTable
• mplsL3VpnVrfTable
• mplsL3VpnVrfRTTable
• mplsL3VpnVrfRteTable
The following objects from the IETF draft are supported on the NetIron IMR 640:
VPN Interface Configuration Table
pwPeerMappingEntry/pwPeerMappingVcType
fdry.3.1.2.1.8.1.3 Replaced by pwPeerMappingEntry/pwPeerMappingPwType
Type changed from PwTypeTC to IANAPwTypeTC
pwPeerMappingEntry/pwPeerMappingVcID
fdry.3.1.2.1.8.1.4 Replaced by pwPeerMappingEntry/pwPeerMappingPwID
pwPeerMappingEntry/pwPeerMappingVcIndex
fdry.3.1.2.1.8.1.5 Replaced by pwPeerMappingEntry/pwPeerMappingPwIndex
Object Object Identifier Supported?
mplsL3VpnConfiguredVrfs fdry.3.2.1.1.1.1 Yes – Read-only
mplsL3VpnActiveVrfs fdry.3.2.1.1.1.2 Yes – Read-only
mplsL3VpnConnectedInterfaces fdry.3.2.1.1.1.3 Yes – Read-only
mplsL3VpnNotificationEnable fdry.3.2.1.1.1.4 Yes – Read-Write
mplsL3VpnVrfConfMaxPossRts fdry.3.2.1.1.1.5 Yes – Read-only
mplsL3VpnVrfConfRteMxThrshTime fdry.3.2.1.1.1.6 No
mplsL3VpnIllLblRcvThrsh fdry.3.2.1.1.1.7 No
Object Object Identifier Supported?
mplsL3VpnConf fdry.3.2.1.1.2 Yes
mplsL3VpnIfConfTable fdry.3.2.1.1.2.1 Yes - Read only
Table 3.5: Comparision of Objects within drafts v.6 and v.11
Object Object Identifier Differences
April 2008 © 2008 Foundry Networks, Inc. 3-31
Foundry Management Information Base Reference
VRF Configuration Table
mplsL3VpnIfConfEntry fdry.3.2.1.1.2.1.1 Yes
mplsL3VpnIfConfIndex fdry.3.2.1.1.2.1.1.1 Yes
mplsL3VpnIfVpnClassification fdry.3.2.1.1.2.1.1.2 YesOnly enterprise (2) supported
mplsL3VpnIfVpnRouteDistProtocol fdry.3.2.1.1.2.1.1.3 Yesisis (4) not supportedstatic (5) always true
mplsL3VpnIfConfStorageType fdry.3.2.1.1.2.1.1.4 Yes
Object Object Identifier Supported?
mplsL3VpnVrfTable fdry.3.2.1.1.2.2 Yes - Read only
mplsL3VpnVrfEntry fdry.3.2.1.1.2.2.1 Yes
mplsL3VpnVrfName fdry.3.2.1.1.2.2.1.1 YesSupported in simple VRF textual name format.
Not supported in format specified in RFC 2685
mplsL3VpnVrfVpnId fdry.3.2.1.1.2.2.1.2 No- Returns null string
mplsL3VpnVrfDescription fdry.3.2.1.1.2.2.1.3 No Returns null string
mplsL3VpnVrfRD fdry.3.2.1.1.2.2.1.4 Read Only
mplsL3VpnVrfCreationTime fdry.3.2.1.1.2.2.1.5 NoReturns 0
mplsL3VpnVrfOperStatus fdry.3.2.1.1.2.2.1.6 NoAlways returns up(1)
mplsL3VpnVrfActiveInterfaces fdry.3.2.1.1.2.2.1.7 Read only
mplsL3VpnVrfAssociatedInterfaces fdry.3.2.1.1.2.2.1.8 Read only
mplsL3VpnVrfConfMidRteThresh fdry.3.2.1.1.2.2.1.9 NoReturns 0
mplsL3VpnVrfConfHightRteThresh fdry.3.2.1.1.2.2.1.10 NoReturns 0
mplsL3VpnVrfConfMaxRoutes fdry.3.2.1.1.2.2.1.11 Read Only
mplsL3VpnVrfConfLastChanged fdry.3.2.1.1.2.2.1.12 NoReturns 0
mplsL3VpnVrfConfRowStatus fdry.3.2.1.1.2.2.1.13 Yes
Object Object Identifier Supported?
3-32 © 2008 Foundry Networks, Inc. April 2008
Supported Standard MIBs
VRF Route Target Table
VRF Security Table
VRF Performance Table
mplsL3VpnVrfConfAdminStatus fdry.3.2.1.1.2.2.1.14 Only Up (1) supported
mplsL3VpnVrfConfStorageType fdry.3.2.1.1.2.2.1.15 Read Only
This object always returns permanent(4)
Object Object Identifier Supported?
mplsL3VpnVrfRTTable fdry.3.2.1.1.2.3 Yes - Read only
mplsL3VpnVrfRTEntry fdry.3.2.1.1.2.3.1 Yes
mplsL3VpnVrfRTIndex fdry.3.2.1.1.2.3.1.2 Yes
mplsL3VpnVrfRTType fdry.3.2.1.1.2.3.1.3 Read Only
mplsL3VpnVrfRT fdry.3.2.1.1.2.3.1.4 Read Only
mplsL3VpnVrfRTDescr fdry.3.2.1.1.2.3.1.5 No Returns null string
mplsL3VpnVrfRTRowStatus fdry.3.2.1.1.2.3.1.6 Read Only
mplsL3VpnVrfRTStorageType fdry.3.2.1.1.2.3.1.7 Read Only
This object always returns permanent(4)
Object Object Identifier Supported?
mplsL3VpnVrfSecTable fdry.3.2.1.1.2.6 Yes
mplsL3VpnVrfSecEntry fdry.3.2.1.1.2.6.1 Yes
mplsL3VpnVrfSecIllegalLblVltns fdry.3.2.1.1.2.6.1.1 NoReturns 0
mplsL3VpnVrfSecDiscontinuityTime fdry.3.2.1.1.2.6.1.2 NoReturns 0
Object Supported? Object Identifier
mplsL3VpnPerf Yes fdry.3.2.1.1.3
mplsL3VpnVrfPerfTable Yes fdry.3.2.1.1.3.1
Object Object Identifier Supported?
April 2008 © 2008 Foundry Networks, Inc. 3-33
Foundry Management Information Base Reference
VRF Routing Table
mplsL3VpnVrfPerfEntry Yes fdry.3.2.1.1.3.1.1
mplsL3VpnVrfPerfRoutesAdded Read only fdry.3.2.1.1.3.1.1.1
mplsL3VpnVrfPerfRoutesDeleted Read only fdry.3.2.1.1.3.1.1.2
mplsL3VpnVrfPerfCurrNumRoutes Read only fdry.3.2.1.1.3.1.1.3
mplsL3VpnVrfPerfRoutesDropped No fdry.3.2.1.1.3.1.1.4
mplsL3VpnVrfPerfDiscTime No fdry.3.2.1.1.3.1.1.5
Object Object Identifier Supported?
mplsL3VpnRoute fdry.3.2.1.1.4 Yes
mplsL3VpnVrfRteTable fdry.3.2.1.1.4.1 Yes - Read only
mplsL3VpnVrfRteEntry fdry.3.2.1.1.4.1.1. Yes
mplsL3VpnVrfRteInetCidrDestType fdry.3.2.1.1.4.1.1.1 IPv4 Value
mplsL3VpnVrfRteInetCidrDest fdry.3.2.1.1.4.1.1.2 Yes
mplsL3VpnVrfRteInetCidrPfxLen fdry.3.2.1.1.4.1.1.3 Yes
mplsL3VpnVrfRteInetCidrPolicy fdry.3.2.1.1.4.1.1.4 DefaultThe value {0 0} returned
mplsL3VpnVrfRteInetCidrNHopType fdry.3.2.1.1.4.1.1.5 Ipv4
mplsL3VpnVrfRteInetCidrNextHop fdry.3.2.1.1.4.1.1.6 Yes
mplsL3VpnVrfRteInetCidrIfIndex fdry.3.2.1.1.4.1.1.7 Read only
mplsL3VpnVrfRteInetCidrType fdry.3.2.1.1.4.1.1.8 Read only
mplsL3VpnVrfRteInetCidrProto fdry.3.2.1.1.4.1.1.9 Read only
mplsL3VpnVrfRteInetCidrAge fdry.3.2.1.1.4.1.1.10 Read only
mplsL3VpnVrfRteInetCidrNextHopAS fdry.3.2.1.1.4.1.1.11 NoReturns 0
mplsL3VpnVrfRteInetCidrMetric1 fdry.3.2.1.1.4.1.1.12 Read Only
mplsL3VpnVrfRteInetCidrMetric2 fdry.3.2.1.1.4.1.1.13 NoReturns 0
mplsL3VpnVrfRteInetCidrMetric3 fdry.3.2.1.1.4.1.1.14 NoReturns 0
mplsL3VpnVrfRteInetCidrMetric4 fdry.3.2.1.1.4.1.1.15 NoReturns 0
mplsL3VpnVrfRteInetCidrMetric5 fdry.3.2.1.1.4.1.1.16 NoReturns 0
Object Supported? Object Identifier
3-34 © 2008 Foundry Networks, Inc. April 2008
Supported Standard MIBs
mplsL3VpnVrfRteXCPointer fdry.3.2.1.1.4.1.1.17 NoReturns null string
mplsL3VpnVrfRteInetCidrStatus fdry.3.2.1.1.4.1.1.18 Read Only
Object Object Identifier Supported?
April 2008 © 2008 Foundry Networks, Inc. 3-35
Foundry Management Information Base Reference
3-36 © 2008 Foundry Networks, Inc. April 2008
Chapter 4Registration
Registration objects identify the Foundry product that is being managed. The following table presents the objects for product registration. The sysOID will return one of these values:
Object Name and Identifier Description
snFIWGSwitch
fdry.1.3.1.1
Stackable FastIron Workgroup Switch
snFIBBSwitch
fdry.1.3.1.2
Stackable FastIron Backbone Switch
snNIRouter
fdry.1.3.2.1
Stackable NetIron Router
snSI
fdry.1.3.3.1
Stackable ServerIron
snSIXL
fdry.1.3.3.2
Stackable ServerIronXL
snSIXLTCS
fdry.1.3.3.3
Stackable ServerIronXL TCS
snTISwitch
fdry.1.3.4.1
Stackable TurboIron/8 Switch
snTIRouter
fdry.1.3.4.2
Stackable TurboIron/8 Router
snT8Switch
fdry.1.3.5.1
Stackable TurboIron/8 Switch
snT8Router
fdry.1.3.5.2
Stackable TurboIron/8 Router
April 2008 © 2008 Foundry Networks, Inc. 4-1
Foundry Management Information Base Reference
snT8SI
fdry.1.3.5.3
Stackable ServerIronXL
snT8SIXLG
fdry.1.3.5.4
Stackable ServerIronXLG
snBI4000Switch
fdry.1.3.6.1
BigIron 4000 Switch
snBI4000Router
fdry.1.3.6.2
BigIron 4000 Router
snBI4000SI
fdry.1.3.6.3
BigServerIron, 4-slot
snBI8000Switch
fdry.1.3.7.1
BigIron 8000 Switch
snBI8000Router
fdry.1.3.7.2
BigIron 8000 Router
snBI8000SI
fdry.1.3.7.3
BigServerIron
snFI2Switch
fdry.1.3.8.1
FastIron II Switch
snFI2Router
fdry.1.3.8.2
FastIron II Router
snFI2PlusSwitch
fdry.1.3.9.1
FastIron II Plus switch
snFI2PlusRouter
fdry.1.3.9.2
FastIron II Plus router
snNI400Router
fdry.1.3.10.1
NetIron Router
snNI800Router
fdry.1.3.11.1
NetIron 800 Router
snFI2GCSwitch
fdry.1.3.12.1
FastIron II GC switch
snFI2GCRouter
fdry.1.3.12.2
FastIron II GC router
snFI2PlusGCSwitch
fdry.1.3.13.1
FastIron II Plus GC switch
Object Name and Identifier Description
4-2 © 2008 Foundry Networks, Inc. April 2008
Registration
snFI2PlusGCRouter
fdry.1.3.13.2
FastIron II Plus GC router
snBigIron15000
fdry.1.3.14.1
BigIron 15000 Switch
snBI15000Router
fdry.1.3.14.2
BigIron 15000 Router
snBI15000SI
fdry.1.3.14.3
BigIron 15000 ServerIron for M2-M4 modules running the BS2 ServerIron code
snNI1500Router
fdry.1.3.15.1
NetIron 1500 Router
snFI3Switch
fdry.1.3.16.1
FastIron III Switch
snFI3Router
fdry.1.3.16.2
FastIron III Router
snFI3GCSwitch
fdry.1.3.17.1
FastIron III GC switch
snFI3GCRouter
fdry.1.3.17.2
FastIron III GC router
snSI400Switch
fdry.1.3.18.1
ServerIron 400 switch
snSI400Router
fdry.1.3.18.2
ServerIron 400 router
snSI800Switch
fdry.1.3.19.1
ServerIron 800 switch
snSI800Router
fdry.1.3.19.2
ServerIron 800 router
snSI1500Switch
fdry.1.3.20.1
ServerIron 1500 switch
snSI1500Router
fdry.1.3.20.2
ServerIron 1500 router
sn4802Switch
fdry.1.3.21.1
Stackable FastIron 4802 switch
sn4802Router
fdry.1.3.21.2
Stackable FastIron 4802 router
Object Name and Identifier Description
April 2008 © 2008 Foundry Networks, Inc. 4-3
Foundry Management Information Base Reference
sn4802SI
fdry.1.3.21.3
Stackable FastIron 4802 ServerIron
snFI400Switch
fdry.1.3.22.1
FastIron 400 switch
snFI400Router
fdry.1.3.22.2
FastIron 400 router
snFI800Switch
fdry.1.3.23.1
FastIron 800 switch
snFI800Router
fdry.1.3.23.2
FastIron 800 router
snFI1500Switch
fdry.1.3.24.1
FastIron 1500 switch
snFI1500Router
fdry.1.3.24.2
FastIron 1500 router
snFES2402Switch
fdry.1.3.25.1
FastIron Edge Switch 2402 Switch
snFES2402Router
fdry.1.3.25.2
FastIron Edge Switch 2402 Router
snFES4802Switch
fdry.1.3.26.1
FastIron Edge Switch 4802 Switch
snFES4802Router
fdry.1.3.26.2
FastIron Edge Switch 4802 Router
snFES9604Switch
fdry.1.3.27.1
FastIron Edge Switch 9604 Switch
snFES9604Router
fdry.1.3.27.2
FastIron Edge Switch 9604 Router
snFES12GCFSwitch
fdry.1.3.28.1
FastIron Edge Switch 12GCF Switch
snFES12GCFRouter
fdry.1.3.28.2
FastIron Edge Switch 12GCF Router
snFES2402POESwitch
fdry.1.3.29.1
FastIron Edge Switch 2402 Power Over Ethernet Switch
snFES2402POERouter
fdry.1.3.29.2
FastIron Edge Switch 2402 Power Over Ethernet Router
Object Name and Identifier Description
4-4 © 2008 Foundry Networks, Inc. April 2008
Registration
snFES4802POESwitch
fdry.1.3.30.1
FastIron Edge Switch 4802 Power Over Ethernet Switch
snFES4802POERouter
fdry.1.3.30.2
FastIron Edge Switch 4802 Power Over Ethernet Router
snNI4802Switch
fdry.1.3.31.1
NetIron 4802 Switch
snNI4802Router
fdry.1.3.31.2
NetIron 4802 Router
snBIMG8Switch
fdry.1.3.32.1
BigIron MG8 Switch
snBIMG8Router
fdry.1.3.32.2
BigIron MG8 Router
snNI40GRouter
fdry.1.3.33.2
NetIron 40G Router
snFESX424Switch
fdry.1.3.34.1.1.1.1
FastIron Edge Switch X Series 424 Switch
snFESX424Router
fdry.1.3.34.1.1.1.2
FastIron Edge Switch X Series 424 Router
snFESX424PremSwitch
fdry.1.3.34.1.1.2.1
FastIron Edge Switch X Series 424 Premium Switch
snFESX424PremRouter
fdry.1.3.34.1.1.2.2
FastIron Edge Switch X Series 424 Premium Router
snFESX424Plus1XGSwitch
fdry.1.3.34.1.2.1.1
FastIron Edge Switch X Series 424 Plus 1XG Switch
snFESX424Plus1XGRouter
fdry.1.3.34.1.2.1.2
FastIron Edge Switch X Series 424 Plus 1XG Router
snFESX424Plus1XGPremSwitch
fdry.1.3.34.1.2.2.1
FastIron Edge Switch X Series 424 Plus 1XG Premium Switch
snFESX424Plus1XGPremRouter
fdry.1.3.34.1.2.2.2
FastIron Edge Switch X Series 424 Plus 1XG Premium Router
snFESX424Plus2XGSwitch
fdry.1.3.34.1.3.1.1
FastIron Edge Switch X Series 424 Plus 2XG Switch
snFESX424Plus2XGRouter
fdry.1.3.34.1.3.1.2
FastIron Edge Switch X Series 424 Plus 2XG Router
Object Name and Identifier Description
April 2008 © 2008 Foundry Networks, Inc. 4-5
Foundry Management Information Base Reference
snFESX424Plus2XGPremSwitch
fdry.1.3.34.1.3.2.1
FastIron Edge Switch X Series 424 Plus 2XG Premium Switch
snFESX424Plus2XGPremRouter
fdry.1.3.34.1.3.2.2
FastIron Edge Switch X Series 424 Plus 2XG Premium Router
snFESX448Switch
fdry.1.3.34.2.1.1.1
FastIron Edge Switch X Series 448 Switch
snFESX448Router
fdry.1.3.34.2.1.1.2
FastIron Edge Switch X Series 448 Router
snFESX448PremSwitch
fdry.1.3.34.2.1.2.1
FastIron Edge Switch X Series 448 Premium Switch
snFESX448PremRouter
fdry.1.3.34.2.1.2.2
FastIron Edge Switch X Series 448 Premium Router
snFESX448Plus1XGSwitch
fdry.1.3.34.2.2.1.1
FastIron Edge Switch X Series 448 Plus 1XG Switch
snFESX448Plus1XGRouter
fdry.1.3.34.2.2.1.2
FastIron Edge Switch X Series 448 1XG Router
snFESX448Plus1XGPremSwitch
fdry.1.3.34.2.2.2.1
FastIron Edge Switch X Series 448 Plus 1XG Premium Switch
snFESX448Plus1XGPremRouter
fdry.1.3.34.2.2.2.2
FastIron Edge Switch X Series 448 Plus 1XG Premium Router
snFESX448Plus2XGSwitch
fdry.1.3.34.2.3.1.1
FastIron Edge Switch X Series 448 Plus 2XG Switch
snFESX448Plus2XGRouter
fdry.1.3.34.2.3.1.2
FastIron Edge Switch X Series 448 Plus 2XG Router
snFESX448Plus2XGPremSwitch
fdry.1.3.34.2.3.2.1
FastIron Edge Switch X Series 448 Plus 2XG Premium Switch
snFESX448Plus2XGPremRouter
fdry.1.3.34.2.3.2.2
FastIron Edge Switch X Series 448 Plus 2XG Premium Router
snFESX424FiberSwitch
fdry.1.3.34.3.1.1.1
FastIron Edge Switch X Series 424 Fiber Switch
snFESX424FiberRouter
fdry.1.3.34.3.1.1.2
FastIron Edge Switch X Series 424 Fiber Router
snFESX424FiberPremSwitch
fdry.1.3.34.3.1.2.1
FastIron Edge Switch X Series 424 Fiber Premium Switch
Object Name and Identifier Description
4-6 © 2008 Foundry Networks, Inc. April 2008
Registration
snFESX424FiberPremRouter
fdry.1.3.34.3.1.2.2
FastIron Edge Switch X Series 424 Fiber Premium Router
snFESX424FiberPlus1XGSwitch
fdry.1.3.34.3.2.1.1
FastIron Edge Switch X Series 424 Fiber plus 1 10-Gb port Switch
snFESX424FiberPlus1XGRouter
fdry.1.3.34.3.2.1.2
FastIron Edge Switch X Series 424 Fiber plus 1 10-Gb port Router
snFESX424FiberPlus1XGPremSwitch
fdry.1.3.34.3.2.2.1
FastIron Edge Switch X Series 424 Fiber plus 1 10-Gb port Premium Switch
snFESX424FiberPlus1XGPremRouter
fdry.1.3.34.3.2.2.2
FastIron Edge Switch X Series 424 Fiber plus 1 10-Gb port Premium Router
snFESX424FiberPlus2XGSwitch
fdry.1.3.34.3.3.1.1
FastIron Edge Switch X Series 424 Fiber plus 2 10-Gb ports Switch
snFESX424FiberPlus2XGRouter
fdry.1.3.34.3.3.1.2
FastIron Edge Switch X Series 424 Fiber plus 2 10-Gb ports Router
snFESX424FiberPlus2XGPremSwitch
fdry.1.3.34.3.3.2.1
FastIron Edge Switch X Series 424 Fiber plus 2 10-Gb ports Premium Switch
snFESX424FiberPlus2XGPremRouter
fdry.1.3.34.3.3.2.2
FastIron Edge Switch X Series 424 Fiber plus 2 10-Gb ports Premium Router
snFESX448FiberSwitch
fdry.1.3.34.4.1.1.1
FastIron Edge Switch X Series 448 Fiber Switch
snFESX448FiberRouter
fdry.1.3.34.4.1.1.2
FastIron Edge Switch X Series 448 Fiber Router
snFESX448FiberPremSwitch
fdry.1.3.34.4.1.2.1
FastIron Edge Switch X Series 448 Fiber Premium Switch
snFESX448FiberPremRouter
fdry.1.3.34.4.1.2.2
FastIron Edge Switch X Series 448 Fiber Premium Router
snFESX448FiberPlus1XGSwitch
fdry.1.3.34.4.2.1.1
FastIron Edge Switch X Series 448 Fiber plus 1 10-Gb port Switch
snFESX448FiberPlus1XGRouter
fdry.1.3.34.4.2.1.2
FastIron Edge Switch X Series 448 Fiber plus 1 10-Gb port Router
Object Name and Identifier Description
April 2008 © 2008 Foundry Networks, Inc. 4-7
Foundry Management Information Base Reference
snFESX448FiberPlus1XGPremSwitch
fdry.1.3.34.4.2.2.1
FastIron Edge Switch X Series 448 Fiber plus 1 10-Gb port Premium Switch
snFESX448FiberPlus1XGPremRouter
fdry.1.3.34.4.2.2.2
FastIron Edge Switch X Series 448 Fiber plus 1 10-Gb port Premium Router
snFESX448FiberPlus2XGSwitch
fdry.1.3.34.4.3.1.1
FastIron Edge Switch X Series 448 Fiber plus 2 10-Gb ports Switch
snFESX448FiberPlus2XGRouter
fdry.1.3.34.4.3.1.2
FastIron Edge Switch X Series 448 Fiber plus 2 10-Gb ports Router
snFESX448FiberPlus2XGPremSwitch
fdry.1.3.34.4.3.2.1
FastIron Edge Switch X Series 448 Fiber plus 2 10-Gb ports Premium Switch
snFESX448FiberPlus2XGPremRouter
fdry.1.3.34.4.3.2.2
FastIron Edge Switch X Series 448 Fiber plus 2 10-Gb ports Premium Router
snFESX424POESwitch
fdry.1.3.34.5.1.1.1
FastIron Edge Switch X Series 424 POE Switch
snFESX424POERouter
fdry.1.3.34.5.1.1.2
FastIron Edge Switch X Series 424 POE Router
snFESX424POEPremSwitch
fdry.1.3.34.5.1.2.124
FastIron Edge Switch X Series 424 POE Premium Switch
snFESX424POEPremRouter
fdry.1.3.34.5.1.2.2
FastIron Edge Switch X Series 424 POE Premium Router
snFESX424POEPrem6Router
fdry.1.3.34.5.1.2.3
FastIron Edge Switch X Series 424 POE PREM6 Router
snFESX424POEPlus1XGSwitch
fdry.1.3.34.5.2.1.1
FastIron Edge Switch X Series 424 POE plus 1 10-Gb port Switch
snFESX424POEPlus1XGRouter
fdry.1.3.34.5.2.1.2
FastIron Edge Switch X Series 424 POE plus 1 10-Gb port Router
snFESX424POEPlus1XGPremSwitch
fdry.1.3.34.5.2.2.1
FastIron Edge Switch X Series 424 POE plus 1 10-Gb port Premium Switch
snFESX424POEPlus1XGPremRouter
fdry.1.3.34.5.2.2.2
FastIron Edge Switch X Series 424 POE plus 1 10-Gb port Premium Router
Object Name and Identifier Description
4-8 © 2008 Foundry Networks, Inc. April 2008
Registration
snFESX424POEPlus2XGSwitch
fdry.1.3.34.5.3.1.1
FastIron Edge Switch X Series 424 POE plus 2 10-Gb ports Switch
snFESX424POEPlus2XGRouter
fdry.1.3.34.5.3.1.2
FastIron Edge Switch X Series 424 POE plus 2 10-Gb ports Router
snFESX424POEPlus2XGPremSwitch
fdry.1.3.34.5.3.2.1
FastIron Edge Switch X Series 424 POE plus 2 10-Gb ports Premium Switch
snFESX424POEPlus2XGPremRouter
fdry.1.3.34.5.3.2.2
FastIron Edge Switch X Series 424 POE plus 2 10-Gb ports Premium Router
snFESX624Switch
fdry.1.3.34.6.1.1.1
FastIron Edge Switch X Series 624 Switch
snFESX624Router
fdry.1.3.34.6.1.1.2
FastIron Edge Switch X Series 624 Router
snFESX624PremSwitch
fdry.1.3.34.6.1.2.1
FastIron Edge Switch X Series 624 Premium Switch
snFESX624PremRouter
fdry.1.3.34.6.1.2.2
FastIron Edge Switch X Series 624 Premium Router
snFESX624Prem6Router
fdry.1.3.34.6.1.2.3
FastIron Edge Switch X Series 624 PREM6 Router
snFESX624Plus1XGSwitch
fdry.1.3.34.6.2.1.1
FastIron Edge Switch X Series 624 plus 1 10-Gb port Switch
snFESX624Plus1XGRouter
fdry.1.3.34.6.2.1.2
FastIron Edge Switch X Series 624 plus 1 10-Gb port Router
snFESX624Plus1XGPremSwitch
fdry.1.3.34.6.2.2.1
FastIron Edge Switch X Series 624 plus 1 10-Gb port Premium Switch
snFESX624Plus1XGPremRouter
fdry.1.3.34.6.2.2.2
FastIron Edge Switch X Series 624 plus 1 10-Gb port Premium Router
snFESX624Plus1XGPrem6Router
fdry.1.3.34.6.2.2.3
FastIron Edge Switch X Series 624 plus 1 10-Gb port PREM6 Router
snFESX624Plus2XGSwitch
fdry.1.3.34.6.3.1.1
FastIron Edge Switch X Series 624 plus 2 10-Gb ports Switch
snFESX624Plus2XGRouter
fdry.1.3.34.6.3.1.2
FastIron Edge Switch X Series 624 plus 2 10-Gb ports Router
Object Name and Identifier Description
April 2008 © 2008 Foundry Networks, Inc. 4-9
Foundry Management Information Base Reference
snFESX624Plus2XGPremSwitch
fdry.1.3.34.6.3.2.1
FastIron Edge Switch X Series 624 plus 2 10-Gb ports Premium Switch
snFESX624Plus2XGPremRouter
fdry.1.3.34.6.3.2.2
FastIron Edge Switch X Series 624 plus 2 10-Gb ports Premium Router
snFESX624Plus2XGPrem6Router
fdry.1.3.34.6.3.2.3
FastIron Edge Switch X Series 624 plus 2 10-Gb ports PREM6 Router
snFESX648PremSwitch
fdry.1.3.34.7.1.2.1
FastIron Edge Switch X Series 648 Premium Switch
snFESX648PremRouter
fdry.1.3.34.7.1.2.2
FastIron Edge Switch X Series 648 Premium Router
snFESX648Prem6Router
fdry.1.3.34.7.1.2.3
FastIron Edge Switch X Series 648 PREM6 Router
snFESX648Plus1XGSwitch
fdry.1.3.34.7.2.1.1
FastIron Edge Switch X Series 648 plus 1 10-Gb port Switch
snFESX648Plus1XGRouter
fdry.1.3.34.7.2.1.2
FastIron Edge Switch X Series 648 plus 1 10-Gb port Router
snFESX648Plus1XGPremSwitch
fdry.1.3.34.7.2.2.1
FastIron Edge Switch X Series 648 plus 1 10-Gb port Premium Switch
snFESX648Plus1XGPremRouter
fdry.1.3.34.7.2.2.2
FastIron Edge Switch X Series 648 plus 1 10-Gb port Premium Router
snFESX648Plus1XGPrem6Router
fdry.1.3.34.7.2.2.3
FastIron Edge Switch X Series 648 plus 1 10-Gb port PREM6 Router
snFESX648Plus2XGSwitch
fdry.1.3.34.7.3.1.1
FastIron Edge Switch X Series 648 plus 2 10-Gb ports Switch
snFESX648Plus2XGRouter
fdry.1.3.34.7.3.1.2
FastIron Edge Switch X Series 648 plus 2 10-Gb ports Router
snFESX648Plus2XGPremSwitch
fdry.1.3.34.7.3.2.1
FastIron Edge Switch X Series 648 plus 2 10-Gb ports Premium Switch
snFESX648Plus2XGPremRouter
fdry.1.3.34.7.3.2.2
FastIron Edge Switch X Series 648 plus 2 10-Gb ports Premium Router
snFESX648Plus2XGPrem6Router
fdry.1.3.34.7.3.2.3
FastIron Edge Switch X Series 648 plus 2 10-Gb ports PREM6 Router
Object Name and Identifier Description
4-10 © 2008 Foundry Networks, Inc. April 2008
Registration
snFESX624FiberSwitch
fdry.1.3.34.8.1.1.1
FastIron Edge Switch X Series 624 Fiber Switch
snFESX624FiberRouter
fdry.1.3.34.8.1.1.2
FastIron Edge Switch X Series 624 Fiber Router
snFESX624FiberPremSwitch
fdry.1.3.34.8.1.2.1
FastIron Edge Switch X Series 624 Fiber Premium Switch
snFESX624FiberPremRouter
fdry.1.3.34.8.1.2.2
FastIron Edge Switch X Series 624 Fiber Premium Router
snFESX624FiberPrem6Router
fdry.1.3.34.8.1.2.3
FastIron Edge Switch X Series 624 Fiber PREM6 Router
snFESX624FiberPlus1XGSwitch
fdry.1.3.34.8.2.1.1
FastIron Edge Switch X Series 624 Fiber plus 1 10-Gb port Switch
snFESX624FiberPlus1XGRouter
fdry.1.3.34.8.2.1.2
FastIron Edge Switch X Series 624 Fiber plus 1 10-Gb port Router
snFESX624FiberPlus1XGPremSwitch
fdry.1.3.34.8.2.2.1
FastIron Edge Switch X Series 624 Fiber plus 1 10-Gb port Premium Switch
snFESX624FiberPlus1XGPremRouter
fdry.1.3.34.8.2.2.2
FastIron Edge Switch X Series 624 Fiber plus 1 10-Gb port Premium Router
snFESX624FiberPlus1XGPrem6Router
fdry.1.3.34.8.2.2.3
FastIron Edge Switch X Series 624 Fiber plus 1 10-Gb port PREM6 Router
snFESX624FiberPlus2XGSwitch
fdry.1.3.34.8.3.1.1
FastIron Edge Switch X Series 624 Fiber plus 2 10-Gb ports Switch
snFESX624FiberPlus2XGRouter
fdry.1.3.34.8.3.1.2
FastIron Edge Switch X Series 624 Fiber plus 2 10-Gb ports Router
snFESX624FiberPlus2XGPremSwitch
fdry.1.3.34.8.3.2.1
FastIron Edge Switch X Series 624 Fiber plus 2 10-Gb ports Premium Switch
snFESX624FiberPlus2XGPremRouter
fdry.1.3.34.8.3.2.2
FastIron Edge Switch X Series 624 Fiber plus 2 10-Gb ports Premium Router
snFESX624FiberPlus2XGPrem6Router
fdry.1.3.34.8.3.2.3
FastIron Edge Switch X Series 624 Fiber plus 2 10-Gb ports PREM6 Router
md end
Object Name and Identifier Description
April 2008 © 2008 Foundry Networks, Inc. 4-11
Foundry Management Information Base Reference
snFESX648FiberSwitch
fdry.1.3.34.9.1.1.1
FastIron Edge Switch X Series 648 Fiber Switch
snFESX648FiberRouter
fdry.1.3.34.9.1.1.2
FastIron Edge Switch X Series 648 Fiber Router
snFESX648FiberPremSwitch
fdry.1.3.34.9.1.2.1
FastIron Edge Switch X Series 648 Fiber Premium Switch
snFESX648FiberPremRouter
fdry.1.3.34.9.1.2.2
FastIron Edge Switch X Series 648 Fiber Premium Router
snFESX648FiberPrem6Router
fdry.1.3.34.9.1.2.3
FastIron Edge Switch X Series 648 Fiber PREM6 Router
snFESX648FiberPlus1XGSwitch
fdry.1.3.34.9.2.1.1
FastIron Edge Switch X Series 648 Fiber plus 1 10-Gb port Switch
snFESX648FiberPlus1XGRouter
fdry.1.3.34.9.2.1.2
FastIron Edge Switch X Series 648 Fiber plus 1 10-Gb port Router
snFESX648FiberPlus1XGPremSwitch
fdry.1.3.34.9.2.2.1
FastIron Edge Switch X Series 648 Fiber plus 1 10-Gb port Premium Switch
snFESX648FiberPlus1XGPremRouter
fdry.1.3.34.9.2.2.2
FastIron Edge Switch X Series 648 Fiber plus 1 10-Gb port Premium Router
snFESX648FiberPlus1XGPrem6Router
fdry.1.3.34.9.2.2.3
FastIron Edge Switch X Series 648 Fiber plus 1 10-Gb port PREM6 Router
snFESX648FiberPlus2XGSwitch
fdry.1.3.34.9.3.1.1
FastIron Edge Switch X Series 648 Fiber plus 2 10-Gb ports Switch
snFESX648FiberPlus2XGRouter
fdry.1.3.34.9.3.1.2
FastIron Edge Switch X Series 648 Fiber plus 2 10-Gb ports Router
snFESX648FiberPlus2XGPremSwitch
fdry.1.3.34.9.3.2.1
FastIron Edge Switch X Series 648 Fiber plus 2 10-Gb ports Premium Switch
snFESX648FiberPlus2XGPremRouter
fdry.1.3.34.9.3.2.2
FastIron Edge Switch X Series 648 Fiber plus 2 10-Gb ports Premium Router
snFESX648FiberPlus2XGPrem6Router
fdry.1.3.34.9.3.2.3
FastIron Edge Switch X Series 648 Fiber plus 2 10-Gb ports PREM6 Router
Object Name and Identifier Description
4-12 © 2008 Foundry Networks, Inc. April 2008
Registration
snFESX624POESwitch
fdry.1.3.34.10.1.1.1
FastIron Edge Switch X Series 624 POE Switch
snFESX624POERouter
fdry.1.3.34.10.1.1.2
FastIron Edge Switch X Series 624 POE Router
snFESX624POEPremSwitch
fdry.1.3.34.10.1.2.124
FastIron Edge Switch X Series 624 POE Premium Switch
snFESX624POEPremRouter
fdry.1.3.34.10.1.2.2
FastIron Edge Switch X Series 624 POE Premium Router
snFESX624POEPrem6Router
fdry.1.3.34.10.1.2.3
FastIron Edge Switch X Series 624 POE PREM6 Router
snFESX624POEPlus1XGSwitch
fdry.1.3.34.10.2.1.1
FastIron Edge Switch X Series 624 POE plus 1 10-Gb port Switch
snFESX624POEPlus1XGRouter
fdry.1.3.34.10.2.1.2
FastIron Edge Switch X Series 624 POE plus 1 10-Gb port Router
snFESX624POEPlus1XGPremSwitch
fdry.1.3.34.10.2.2.1
FastIron Edge Switch X Series 624 POE plus 1 10-Gb port Premium Switch
snFESX624POEPlus1XGPremRouter
fdry.1.3.34.10.2.2.2
FastIron Edge Switch X Series 624 POE plus 1 10-Gb port Premium Router
snFESX624POEPlus1XGPrem6Router
fdry.1.3.34.10.2.2.3
FastIron Edge Switch X Series 624 POE plus 1 10-Gb port PREM6 Router
snFESX624POEPlus2XGSwitch
fdry.1.3.34.10.3.1.1
FastIron Edge Switch X Series 624 POE plus 2 10-Gb ports Switch
snFESX624POEPlus2XGRouter
fdry.1.3.34.10.3.1.2
FastIron Edge Switch X Series 624 POE plus 2 10-Gb ports Router
snFESX624POEPlus2XGPremSwitch
fdry.1.3.34.10.3.2.1
FastIron Edge Switch X Series 624 POE plus 2 10-Gb ports Premium Switch
snFESX624POEPlus2XGPremRouter
fdry.1.3.34.10.3.2.2
FastIron Edge Switch X Series 624 POE plus 2 10-Gb ports Premium Router
snFESX624POEPlus2XGPrem6Router
fdry.1.3.34.10.3.2.3
FastIron Edge Switch X Series 624 POE plus 2 10-Gb ports PREM6 Router
Object Name and Identifier Description
April 2008 © 2008 Foundry Networks, Inc. 4-13
Foundry Management Information Base Reference
snFESX624ESwitch
fdry.1.3.34.11.1.1.1
FastIron Edge Switch X Series 624E Switch
snFESX624ERouter
fdry.1.3.34.11.1.1.2
FastIron Edge Switch X Series 624E Router
snFESX624EPremSwitch
fdry.1.3.34.11.1.2.1
FastIron Edge Switch X Series 624E Premium Switch
snFESX624EPremRouter
fdry.1.3.34.11.1.2.2
FastIron Edge Switch X Series 624E Premium Router
snFESX624EPrem6Router
fdry.1.3.34.11.1.2.3
FastIron Edge Switch X Series 624E PREM6 Router
snFESX624EPlus1XGSwitch
fdry.1.3.34.11.2.1.1
FastIron Edge Switch X Series 624E plus 1 10-Gb port Switch
snFESX624EPlus1XGRouter
fdry.1.3.34.11.2.1.2
FastIron Edge Switch X Series 624E plus 1 10-Gb port Router
snFESX624EPlus1XGPremSwitch
fdry.1.3.34.11.2.2.1
FastIron Edge Switch X Series 624E plus 1 10-Gb port Premium Switch
snFESX624EPlus1XGPremRouter
fdry.1.3.34.11.2.2.2
FastIron Edge Switch X Series 624E plus 1 10-Gb port Premium Router
snFESX624EPlus1XGPrem6Router
fdry.1.3.34.11.2.2.3
FastIron Edge Switch X Series 624E plus 1 10-Gb port PREM6 Router
snFESX624EPlus2XGSwitch
fdry.1.3.34.11.3.1.1
FastIron Edge Switch X Series 624E plus 2 10-Gb ports Switch
snFESX624EPlus2XGRouter
fdry.1.3.34.11.3.1.2
FastIron Edge Switch X Series 624E plus 2 10-Gb ports Router
snFESX624EPlus2XGPremSwitch
fdry.1.3.34.11.3.2.1
FastIron Edge Switch X Series 624E plus 2 10-Gb ports Premium Switch
snFESX624EPlus2XGPremRouter
fdry.1.3.34.11.3.2.2
FastIron Edge Switch X Series 624E plus 2 10-Gb ports Premium Router
snFESX624EPlus2XGPrem6Router
fdry.1.3.34.11.3.2.3
FastIron Edge Switch X Series 624E plus 2 10-Gb ports PREM6 Router
Object Name and Identifier Description
4-14 © 2008 Foundry Networks, Inc. April 2008
Registration
snFESX624EFiberSwitch
fdry.1.3.34.12.1.1.1
FastIron Edge Switch X Series 624E Fiber Switch
snFESX624EFiberRouter
fdry.1.3.34.12.1.1.2
FastIron Edge Switch X Series 624E Fiber Router
snFESX624EFiberPremSwitch
fdry.1.3.34.12.1.2.1
FastIron Edge Switch X Series 624E Fiber Premium Switch
snFESX624EFiberPremRouter
fdry.1.3.34.12.1.2.2
FastIron Edge Switch X Series 624E Fiber Premium Router
snFESX624EFiberPrem6Router
fdry.1.3.34.12.1.2.3
FastIron Edge Switch X Series 624E Fiber PREM6 Router
snFESX624EFiberPlus1XGSwitch
fdry.1.3.34.12.2.1.1
FastIron Edge Switch X Series 624E Fiber plus 1 10-Gb port Switch
snFESX624EFiberPlus1XGRouter
fdry.1.3.34.12.2.1.2
FastIron Edge Switch X Series 624E Fiber plus 1 10-Gb port Router
snFESX624EFiberPlus1XGPremSwitch
fdry.1.3.34.12.2.2.1
FastIron Edge Switch X Series 624E Fiber plus 1 10-Gb port Premium Switch
snFESX624EFiberPlus1XGPremRouter
fdry.1.3.34.12.2.2.2
FastIron Edge Switch X Series 624E Fiber plus 1 10-Gb port Premium Router
snFESX624EFiberPlus1XGPrem6Router
fdry.1.3.34.12.2.2.3
FastIron Edge Switch X Series 624E Fiber plus 1 10-Gb port PREM6 Router
snFESX624EFiberPlus2XGSwitch
fdry.1.3.34.12.3.1.1
FastIron Edge Switch X Series 624E Fiber plus 2 10-Gb ports Switch
snFESX624EFiberPlus2XGRouter
fdry.1.3.34.12.3.1.2
FastIron Edge Switch X Series 624E Fiber plus 2 10-Gb ports Router
snFESX624EFiberPlus2XGPremSwitch
fdry.1.3.34.12.3.2.1
FastIron Edge Switch X Series 624E Fiber plus 2 10-Gb ports Premium Switch
snFESX624EFiberPlus2XGPremRouter
fdry.1.3.34.12.3.2.2
FastIron Edge Switch X Series 624E Fiber plus 2 10-Gb ports Premium Router
Object Name and Identifier Description
April 2008 © 2008 Foundry Networks, Inc. 4-15
Foundry Management Information Base Reference
snFESX624EFiberPlus2XGPrem6Router
fdry.1.3.34.12.3.2.3
FastIron Edge Switch X Series 624E Fiber plus 2 10-Gb ports PREM6 Router
snFESX648ESwitch
fdry.1.3.34.13.1.1.1
FastIron Edge Switch X Series 648E Switch
snFESX648ERouter
fdry.1.3.34.13.1.1.2
FastIron Edge Switch X Series 648E Router
snFESX648EPremSwitch
fdry.1.3.34.13.1.2.1
FastIron Edge Switch X Series 648E Premium Switch
snFESX648EPremRouter
fdry.1.3.34.13.1.2.2
FastIron Edge Switch X Series 648E Premium Router
snFESX648EPrem6Router
fdry.1.3.34.13.1.2.3
FastIron Edge Switch X Series 648E PREM6 Router
snFESX648EPlus1XGSwitch
fdry.1.3.34.13.2.1.1
FastIron Edge Switch X Series 648E plus 1 10-Gb port Switch
snFESX648EPlus1XGRouter
fdry.1.3.34.13.2.1.2
FastIron Edge Switch X Series 648E plus 1 10-Gb port Router
snFESX648EPlus1XGPremSwitch
fdry.1.3.34.13.2.2.1
FastIron Edge Switch X Series 648E plus 1 10-Gb port Premium Switch
snFESX648EPlus1XGPremRouter
fdry.1.3.34.13.2.2.2
FastIron Edge Switch X Series 648E plus 1 10-Gb port Premium Router
snFESX648EPlus1XGPrem6Router
fdry.1.3.34.13.2.2.3
FastIron Edge Switch X Series 648E plus 1 10-Gb port PREM6 Router
snFESX648EPlus2XGSwitch
fdry.1.3.34.13.3.1.1
FastIron Edge Switch X Series 648E plus 2 10-Gb ports Switch
snFESX648EPlus2XGRouter
fdry.1.3.34.13.3.1.2
FastIron Edge Switch X Series 648E plus 2 10-Gb ports Router
snFESX648EPlus2XGPremSwitch
fdry.1.3.34.13.3.2.1
FastIron Edge Switch X Series 648E plus 2 10-Gb ports Premium Switch
snFESX648EPlus2XGPremRouter
fdry.1.3.34.13.3.2.2
FastIron Edge Switch X Series 648E plus 2 10-Gb ports Premium Router
Object Name and Identifier Description
4-16 © 2008 Foundry Networks, Inc. April 2008
Registration
snFESX648EPlus2XGPrem6Router
fdry.1.3.34.13.3.2.3
FastIron Edge Switch X Series 648E plus 2 10-Gb ports PREM6 Router
snFWSX424Switch
fdry.1.3.35.1.1.1.1
FastIron Workgroup Switch X Series (FWSX) 424 Switch
snFWSX424Router
fdry.1.3.35.1.1.1.2
FastIron Workgroup Switch X Series (FWSX) 424 Router
snFWSX424Plus1XGSwitch
fdry.1.3.35.1.2.1.1
FastIron Workgroup Switch X Series (FWSX) 424 plus 1 10-Gb port switch
snFWSX424Plus1XGRouter
fdry.1.3.35.1.2.1.2
FastIron Workgroup Switch X Series (FWSX) 424 plus 1 10-Gb port router
snFWSX424Plus2XGSwitch
fdry.1.3.35.1.3.1.1
FastIron Workgroup Switch X Series (FWSX) 424 Plus 2 10-Gb ports switch
snFWSX424Plus2XGRouter
fdry.1.3.35.1.3.1.2
FastIron Workgroup Switch X Series (FWSX) 424 Plus 2 10-Gb ports router
snFWSX448Switch
fdry.1.3.35.2.1.1.1
FastIron Workgroup Switch X Series (FWSX) 448 switch
snFWSX448Router
fdry.1.3.35.2.1.1.2
FastIron Workgroup Switch X Series (FWSX) 448 router
snFWSX448Plus1XGSwitch
fdry.1.3.35.2.2.1.1
FastIron Workgroup Switch X Series (FWSX) 448 switch plus 1 10-Gb port switch
snFWSX448Plus1XGRouter
fdry.1.3.35.2.2.1.2
FastIron Workgroup Switch X Series (FWSX) 448 switch plus 1 10-Gb port router
snFWSX448Plus2XGSwitch
fdry.1.3.35.2.3.1.1
FastIron Workgroup Switch X Series (FWSX) 448 switch plus 2 10-Gb port switch
snFWSX448Plus2XGRouter
fdry.1.3.35.2.3.1.2
FastIron Workgroup Switch X Series (FWSX) 448 switch plus 2 10-Gb port router
snFastIronSuperXSwitch
fdry.1.3.36.1.1
FastIron SuperX Switch
snFastIronSuperXRouter
fdry.1.3.36.1.2
FastIron SuperX Router
snFastIronSuperXBaseL3Switch
fdry.1.3.36.1.3
FastIron SuperX Base L3 Switch
snFastIronSuperXPremSwitch
fdry.1.3.36.2.1
FastIron SuperX Premium Switch
Object Name and Identifier Description
April 2008 © 2008 Foundry Networks, Inc. 4-17
Foundry Management Information Base Reference
snFastIronSuperXPremRouter
fdry.1.3.36.2.2
FastIron SuperX Premium Router
snFastIronSuperXPremBaseL3Switch
fdry.1.3.36.2.3
FastIron SuperX Premium Base Layer 3 Switch
snFastIronSuperX800Switch
fdry.1.3.36.3.1
FastIron SuperX 800 Switch
snFastIronSuperX800Router
fdry.1.3.36.3.2
FastIron SuperX 800 Router
snFastIronSuperX800BaseL3Switch
fdry.1.3.36.3.3
FastIron SuperX 800 Base Layer 3 Switch
snFastIronSuperX800PremSwitch
fdry.1.3.36.4.1
FastIron SuperX 800 Premium Switch
snFastIronSuperX800PremRouter
fdry.1.3.36.4.2
FastIron SuperX 800 Premium Router
snFastIronSuperX800PremBaseL3Switch
fdry.1.3.36.4.3
FastIron SuperX 800 Premium Base Layer 3 Switch
snFastIronSuperX1600Switch
fdry.1.3.36.5.1
FastIron SuperX 1600 Switch
snFastIronSuperX1600Router
fdry.1.3.36.5.2
FastIron SuperX 1600 Router
snFastIronSuperX1600BaseL3Switch
fdry.1.3.36.5.3
FastIron SuperX 1600 Base Layer 3 Switch
snFastIronSuperX1600PremSwitch
fdry.1.3.36.6.1
FastIron SuperX 1600 Premium Switch
snFastIronSuperX1600PremRouter
fdry.1.3.36.6.2
FastIron SuperX 1600 Premium Router
snFastIronSuperX1600PremBaseL3Switch
fdry.1.3.36.6.3
FastIron SuperX 1600 Premium Base Layer 3 Switch
snFastIronSuperXV6Switch
fdry.1.3.36.7.1
FastIron SuperX IPv6 Switch
Object Name and Identifier Description
4-18 © 2008 Foundry Networks, Inc. April 2008
Registration
snFastIronSuperXV6Router
fdry.1.3.36.7.2
FastIron SuperX IPv6 Router
snFastIronSuperXV6BaseL3Switch
fdry.1.3.36.7.3
FastIron SuperX IPv6 Base Layer 3 Switch
snFastIronSuperXV6PremSwitch
fdry.1.3.36.8.1
FastIron SuperX IPv6 Premium Switch
snFastIronSuperXV6PremRouter
fdry.1.3.36.8.2
FastIron SuperX IPv6 Premium Router
snFastIronSuperXV6PremBaseL3Switch
fdry.1.3.36.8.3
FastIron SuperX IPv6 Premium Base Layer 3 Switch
snFastIronSuperXV6Prem6Router
fdry.1.3.36.8.4
FastIron SuperX IPv6 PREM6 Router
snFastIronSuperX800V6Switch
fdry.1.3.36.9.1
FastIron SuperX 800 IPv6 Switch
snFastIronSuperX800V6Router
fdry.1.3.36.9.2
FastIron SuperX 800 IPv6 Router
snFastIronSuperX800V6BaseL3Switch
fdry.1.3.36.9.3
FastIron SuperX 800 IPv6 Base Layer 3 Switch
snFastIronSuperX800V6PremSwitch
fdry.1.3.36.10.1
FastIron SuperX 800 IPv6 Premium Switch
snFastIronSuperX800V6PremRouter
fdry.1.3.36.10.2
FastIron SuperX 800 IPv6 Premium Router
snFastIronSuperX800V6PremBaseL3Switch
fdry.1.3.36.10.3
FastIron SuperX 800 IPv6 Premium Base Layer 3 Switch
snFastIronSuperX800V6Prem6Router
fdry.1.3.36.10.4
FastIron SuperX 800 IPv6 PREM6 Router
snFastIronSuperX1600V6Switch
fdry.1.3.36.11.1
FastIron SuperX 1600 IPv6 Switch
Object Name and Identifier Description
April 2008 © 2008 Foundry Networks, Inc. 4-19
Foundry Management Information Base Reference
snFastIronSuperX1600V6Router
fdry.1.3.36.11.2
FastIron SuperX 1600 IPv6 Router
snFastIronSuperX1600V6BaseL3Switch
fdry.1.3.36.11.3
FastIron SuperX 1600 IPv6 Base Layer 3 Switch
snFastIronSuperX1600V6PremSwitch
fdry.1.3.36.12.1
FastIron SuperX 1600 IPv6 Premium Switch
snFastIronSuperX1600V6PremRouter
fdry.1.3.36.12.2
FastIron SuperX 1600 IPv6 Premium Router
snFastIronSuperX1600V6PremBaseL3Switch
fdry.1.3.36.12.3
FastIron SuperX 1600 IPv6 Premium Base Layer 3 Switch
snFastIronSuperX1600V6Prem6Router
fdry.1.3.36.12.4
FastIron SuperX 1600 IPv6 PREM6 Router
snBigIronSuperXFamily
fdry.1.3.37
BigIron SuperX Family
snBigIronSuperX
fdry.1.3.37.1
BigIron SuperX
snBigIronSuperXSwitch
fdry.1.3.37.1.1
BigIron SuperX Switch
snBigIronSuperXRouter
fdry.1.3.37.1.2
BigIron SuperX Router
snBigIronSuperXBaseL3Switch
fdry.1.3.37.1.3
BigIron SuperX Base L3 Switch
snTurboIronSuperXFamily
fdry.1.3.38
TurboIron SuperX Family
snTurboIronSuperX
fdry.1.3.38.1
TurboIron SuperX
snTurboIronSuperXSwitch
fdry.1.3.38.1.1
TurboIron SuperX Switch
snTurboIronSuperXRouter
fdry.1.3.38.1.2
TurboIron SuperX Router
Object Name and Identifier Description
4-20 © 2008 Foundry Networks, Inc. April 2008
Registration
snTurboIronSuperXBaseL3Switch
fdry.1.3.38.1.3
TurboIron SuperX Base L3 Switch
snTurboIronSuperXPrem
fdry.1.3.38.2
TurboIron SuperX Premium
snTurboIronSuperXPremSwitch
fdry.1.3.38.2.1
TurboIron SuperX Premium Switch
snTurboIronSuperXPremRouter
fdry.1.3.38.2.2
TurboIron SuperX Premium Router
snTurboIronSuperXPremBaseL3Switch
fdry.1.3.38.2.3
TurboIron SuperX Premium Base Layer 3 Switch
snIMRFamily
fdry.1.3.39
IMR family
snNetIronIMR
fdry.1.3.39.1
NetIron IMR 640 family
snNIIMRRouter
fdry.1.3.39.1.2
NetIron IMR 640 router
snBIRX16Switch
fdry.1.3.40.1.1
BigIron RX-16 Switch
snBIRX16Router
fdry.1.3.40.1.2
BigIron RX-16 Router
snBIRX8Switch
fdry.1.3.40.2.1
BigIron RX-8 Switch
snBIRX4Router
fdry.1.3.40.3.2
BigIron RX-8 Router
snBIRX4Switch
fdry.1.3.40.3.1
BigIron RX-4 Router
snBIRx-32
fdry.1.3.40.4.2
BigIron RX-32
snBIRX4Router
fdry.1.3.40.3.2
BigIron RX-4 Router
snNetIronXMR16000
fdry.1.3.41.1
NetIron XMR-16000
snNIXMR16000Router
fdry.1.3.41.1.2
NetIron XMR-16000 Router
Object Name and Identifier Description
April 2008 © 2008 Foundry Networks, Inc. 4-21
Foundry Management Information Base Reference
snNIXMR8000Router
fdry.1.3.41.2.2
NetIron XMR-8000 Router
snNIXMR4000Router
fdry.1.3.41.3.2
NetIron XMR-4000 Router
snNetIronXMR3200
fdry.1.3.41.4
NetIron XMR3200 Family
edgeIron
fdry.1.4
EdgeIron
edgeIronMib
fdry.1.4.1
EdgeIron MIB
edgeIronType2
fdry.1.5
EdgeIron Type 2
edgeIronType2Mib
fdry.1.5.1
EdgeIron Type 2 MIB
wirelessAp
fdry.1.6
IronPoint 200 Access Point
wirelessProbe
fdry.1.7
IronPoint 200 Sensor
accessIron
fdry.1.8
AccessIron
vendors
fdry.2
digitalChina
fdry.2.1
Digital China
dcrs7504Switch
fdry.2.1.1.1
DCRS 7504 switch
dcrs7504Router
fdry.2.1.1.2
DCRS 7504 router
dcrs7508Switch
fdry.2.1.2.1
DCRS 7508 switch
dcrs7508Router
fdry.2.1.2.2
DCRS 7508 router
dcrs7515Switch
fdry.2.1.3.1
DCRS 7508 switch
Object Name and Identifier Description
4-22 © 2008 Foundry Networks, Inc. April 2008
Registration
dcrs7515Router
fdry.2.1.3.2
DCRS 7508 router
snSecureIronFamily
fdry.1.3.42
SecureIron Product Family
snSecureIronLSFamily
fdry.1.3.42.9
SecureIron LS Product Family
snSecureIronLS100
fdry.1.3.42.9.1
SecureIron LS 100 Group
snSecureIronLS100Switch
fdry.1.3.42.9.1.1
SecureIron LS 100 Switch
snSecureIronLS100Router
fdry.1.3.42.9.1.2
SecureIron LS 100 Router
snSecureIronLS300
fdry.1.3.42.9.2
SecureIron LS 300 Group
snSecureIronLS300Switch
fdry.1.3.42.9.2.1
SecureIron LS 300 Switch
snSecureIronLS300Router
fdry.1.3.42.9.2.2
SecureIron LS 300 Router
snSecureIronTMFamily
fdry.1.3.42.10
SecureIron TM Product Family
snSecureIronTM100
fdry.1.3.42.10.1
SecureIron TM 100 Group
snSecureIronTM100Switch
fdry.1.3.42.10.1.1
SecureIron TM 100 Switch
snSecureIronTM100Router
fdry.1.3.42.10.1.2
SecureIron TM 100 Router
snSecureIronTM300
fdry.1.3.42.10.2
SecureIron TM300 Group
snSecureIronTM300Switch
fdry.1.3.42.10.2.1
SecureIron TM 300 Switch
snSecureIronTM300Router
fdry.1.3.42.10.2.2
SecureIron TM 300 Router
snNetIronMLX16Router
fdry.1.3.44.1.2
NetIron MLX-16 Router
Object Name and Identifier Description
April 2008 © 2008 Foundry Networks, Inc. 4-23
Foundry Management Information Base Reference
snNetIronMLX8Router
fdry.1.3.44.2.2
NetIron MLX-8 Router
snNetIronMLX4Router
fdry.1.3.44.3.2
NetIron MLX-4 Router
snNetIronMLX-32Router
fdry.1.3.44.4
NetIron MLX-32Router
snFGSFamily
fdry.1.3.45
FastIron GS Series Family
snFGS624Family
fdry.1.3.45.1
FastIron GS624 Series Family
snFGS624PBaseFamily
fdry.13.45.1.1
FastIron GS624P Base Series Family
snFGS624P
fdry 1.3.45.1.1.1
FastIron GS Switch (FGS) 24-port 10/100/1000 POE-Ready
snFGS624PSwitch
fdry.1.3.45.1.1.1.1
FastIron GS624P Switch
snFGS624PRouter
fdry.1.3.45.1.1.1.2
FastIron GS624P Router
snFGS624XGPFamily
fdry.1.3.45.1.2
FastIron GS624XGP Series Family
snFGS624XGP
fdry.1.3.45.1.2.1
FastIron GS Switch (FGS) 24-port 10/100/1000 POE-Ready +1 10G
snFGS624XGP
fdry.1.2.45.1.2.1.1
FastIron GS624XGP Switch
snFGS624XGPRouter
fdry.1.3.45.1.2.1.2
FastIron GS624XGP Router
snFGS624PPOEFamily
fdry.1.3.45.1.3
FastIron GS624PPOE Series Family
snFGS624PPOE
fdry.1.3.45.1.3.1
FastIron GS Switch (FGS) 24-port 10/100/1000 POE
snFGS624PPOESwitch
fdry.1.3.45.1.3.1.1
FastIron GS624PPOE Switch
snFGS624PPOERouter
fdry.1.3.45.1.3.1.2
FastIron GS624PPOE Router
Object Name and Identifier Description
4-24 © 2008 Foundry Networks, Inc. April 2008
Registration
snFGS624XGPPOEFamily
fdry.1.2.45.1.4
FastIron GS624XGPPOE Series Family
snFGS624XGPPOE
fdry.1.3.45.1.4.1
FastIron GS624XGPPOE Switch (FGS) 24-port 10/100/1000 POE +1 10G
snFGS624XGPPOESwitch
fdry.1.3.45.1.4.1.1
FastIron GS624XGPPOE Switch
snFGS624XGPPOERouter
fdry.1.3.45.1.4.1.2
FastIron GS624XGPPOE Router
snFGS648Family
fdry.1.3.45.2.1
FastIron GS648 Series Family
snFGS648PBaseFamily
fdry.1.3.45.2.1
Fastiron GS648P Base Family
snFGS648P
fdry.1.3.45.2.1.1
FastIron GS Switch (FGS) 48-port 10/100/1000 POE ready
snFGS648PSwitch
fdry.1.3.45.2.1.1.1
FastIron GS648P Switch
snFGS648PRouter
fdry.1.3.45.2.1.1.2
FastIron GS648P Router
snFSG648PPOEFamily
fdry.1.3.45.2.2
FastIron GS648P POE Series Family
snFGS648PPOE
fdry.1.3.45.2.2.1
FastIron GS648 Switch (FGS) 48-port 10/100/1000 POE
snFGS648PPOESwitch
fdry.1.3.45.2.2.1.1
FastIron GS648PPOE Switch
snFGS648PPOERouter
fdry.1.3.45.2.2.1.2
FastIron GS648PPOE Router
snFLSFamily
fdry.1.3.46
FastIron LS Series Family
snFLS624Family
fdry.1.3.46.1
FastIron LS624 Family
snFLS624BaseFamily
fdry.1.3.46.1.1
FastIron LS624 Base Family
snFLS624
fdry.1.3.46.1.1.1
FastIron LS Switch (FLS) 24-port 10/100/1000
Object Name and Identifier Description
April 2008 © 2008 Foundry Networks, Inc. 4-25
Foundry Management Information Base Reference
4-26 © 2008 Foundry Networks, Inc. April 2008
Chapter 5Physical Properties of a Device
This chapter presents the global objects for the general management of a device’s physical properties, such as the current status of the power supply, fan, and modules. This chapter contains the following sections:
• “Common Objects” on page 5-1
• “Stackable Products” on page 5-20
• “Chassis Products” on page 5-24
Refer to the Foundry Switch and Router Installation and Basic Configuration Guide and the Foundry ServerIron Installation and Configuration Guide for details on power supplies, fans, modules, and other features discussed in this chapter.
Common ObjectsThe following sections contain objects that are common to most Foundry devices:
• “Power Supply” on page 5-1
• “Fan” on page 5-1
• “Boards” on page 5-3
• “Chassis Number” on page 5-6
• “Agent Board Table” on page 5-6
• “Agent Temperature Table (snAgentTemp Table)” on page 5-13
• “Configured Module Table” on page 5-14
• “Redundant Modules” on page 5-18
Power Supply The following object applies to all Foundry devices. Refer to the chapter, “Traps and Objects to Enable Traps” on page 30-1, for information on power supply traps.
Fan The following object applies to all stackable Foundry devices. Refer to the chapter, “Traps and Objects to Enable Traps” on page 30-1, for information on traps for fans.
April 2008 © 2008 Foundry Networks, Inc. 5-1
Foundry Management Information Base Reference
This table has been deprecated in NetIron XMR/MLX software release 03.6.00 and the BigIron RX 02.5.00 software release and is no longer supported. It has been replaced by the “Fan Table” on page 5-25.
Name, Identifier, and Syntax Access Description
snChasFanStatus
fdry.1.1.1.1.4
Syntax: Integer
Read only Shows the status of fans in stackable products. There are six fans per device.
This is a packed bit string. Each bit shows one of the following values:
• 0 – Fan failure.
• 1 – Fan is operational
The following shows the meaning of each bit:
Bit position Meaning
6 – 31 reserved
5 Fan6 status
4 Fan5 status
3 Fan4 status
2 Fan3 status
1 Fan2 status
0 Fan1 status
(Bit 0 is the least significant bit.)
5-2 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
Boards
Name, Identifier, and Syntax Access Description
snChasMainBrdId
fdry.1.1.1.1.13
Syntax: Octet string
Read only Applies to all stackable Foundry products. It identifies the main board. This is an encoded octet string. Each octet provides the following information:
Octet 0 – Identifies the format of this octet string.
Octets 1 and 2:
If the value of Octet 0 is 1, then:
Octet 1 – Product type:
• FIWG – 0x57
• FIBB – 0x42
• FIMLS – 0x4D
• NI – 0x4E
• TI – 0x54
• TIRT – 0x52
Octet 2 – Board type:
• POWERPC – 1
• ALPHA – 2
The length of the octet string is 27.
If Octet 0 has a value of 2, then:
Octet 1 – Product type:
• BI_WG – 0x57
• BI_BB – 0x42
• BI_NI – 0x4E
• NI_M4 – 0x4D
• BI_SLB – 0x53
Octet 2 – Module type:
• MASTER_FIBER_8G – 0x0
• MASTER_FIBER_4G – 0x1
• MASTER_COPPER_16 – 0x2
• FI_MASTER_FIBER_2G – 0x4
• FI_MASTER_FIBER_4G – 0x5
• MASTER_COPPER_8G – 0x6
FI_MASTER_FIBER_8G – 0x7
April 2008 © 2008 Foundry Networks, Inc. 5-3
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snChasMainBrdId (continued) Octet 2 – Module type (continued):
• MASTER_COPPER_12_2 – 0x9
• MASTER_FIBER_2G – 0x12
• MASTER_FIBER_0G – 0x14
• FI_MASTER_COPPER_8G – 0x1D
• FI_MASTER_COPPER_4G – 0x1F
• FI_MASTER_COPPER_2G – 0x20
• MASTER_COPPER_4G – 0x21
• MASTER_COPPER_2G – 0x22
• MASTER_M4_8G – 0x23
• MASTER_M4_4G – 0x24
• MASTER_M4_0G – 0x26
The length of the octet string is 28.
Octet 3 – Processor type (both format version 1 and 2):
• PVR_M603 – 3
• PVR_M604 – 4
• PVR_M603E – 6
• PVR_M603EV – 7
• PVR_M604E – 9
Octet 4 to Octet 5 – Processor speed in MHz (both format version 1 and 2):
Octet 6 – MAC type:
• MAC_NONE – 0
• MAC_SEEQ_10_100 – 1
• MAC_DEC_10_100 – 2
• PHY_ICS – 3
• MAC_XI0GMAC_1000 – 4
• MAC_SEEQ_1000 – 5
• MAC_GMAC_1000 – 6
• MAC_VLSI_1000 – 7
Name, Identifier, and Syntax Access Description
5-4 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
snChasMainBrdId (continued) Octet 7 – PHY type (both format version 1 and 2):
• PHY_NONE – 0
• PHY_QSI – 1
• PHY_BROADCOM – 2
• PHY_ICS – 3
• PHY_NATIONAL – 4
• PHY_LEVEL1 – 6
• PHY_LEVEL16 – 7
• PHY_LEVEL24 – 8
Octet 8 – Port type:
• COPPER – 0
• FIBER – 1
Octet 9 – Fiber port type (both format version 1 and 2):
• NONFIBER – 0
• SX_FIBER – 1
• LX_FIBER – 2
• LHX_FIBER – 3
• LX_SX_FIBER – 4
• LHB_FIBER – 5
Octet 10 to Octet 13 – DRAM size in KBytes (both format version 1 and 2)
Octet 14 to Octet 17 – Boot flash size in KBytes (both format version 1 and 2)
Octet 18 to Octet 21 – Code flash size in KBytes (both format version 1 and 2)
Octet 22 to Octet 27 – Serial number (both format version 1 and 2)
Octet 28 – Chassis backplane type (format version 1 only):
This octet applies only if Octet 0 is equal to 1.
• chassis4000 – 0x00
• chassis8000 – 0x04
• chassis15000 – 0x05
• Turbo8 – 0x07 (stack2)
• FastIron2 – 0x06 (stack1)
Name, Identifier, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 5-5
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Chassis Number
Agent Board TableThe Agent Board Table provides information about the boards. It contains the board ID, board status, LEDs, status, and other information about the main and expansion board. The table applies to all Foundry devices, except for the ServerIron products.
Name, OID, and Syntax Access Description
snChasIdNumber
fdry.1.1.1.1.17
Syntax: Display string
Read only Shows the chassis identity number. This is used by inventory control. This not the number on the label of the device.
By default, this object displays a null string. It can have up to 64 characters.
Name, OID, and Syntax Access Description
snAgentBrdTable
fdry.1.1.2.2.1
None A table of each physical board information.
snAgentBrdEntry
fdry.1.1.2.2.1.1
None A row in the Agent Board table.
snAgentBrdIndex
fdry.1.1.2.2.1.1.1
Syntax: Integer
Read only The index to the Agent Board Table.
Valid values: 1 – 32
snAgentBrdMainBrdDescription
fdry.1.1.2.2.1.1.2
Syntax: Display string
Read only Contains the main board description. This object can have up to 128 characters.
snAgentBrdMainBrdId
fdry.1.1.2.2.1.1.3
Syntax: Octet string
Read only The main board identifier, which can uniquely identify a board type. It is an encoded octet string. The octets in the string provide the following information:
Octet 0 – Identifies the format of this object’s octet string. This object has a value of 2
Octet 1 – Product type:
• BI_WG – 0x57
• BI_BB – 0x42
• BI_NI – 0x4E
• NI_M4 – 0x4D
• BI_SLB – 0x53
5-6 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
snAgentBrdMainBrdId (continued) Octet 2 – Module type:
• MASTER_FIBER_8G – 0x0
• MASTER_FIBER_4G – 0x1
• MASTER_COPPER_16 – 0x2
• SLAVE_FIBER_4G – 0x3
• FI_MASTER_FIBER_2G – 0x4
• FI_MASTER_FIBER_4G – 0x5
• MASTER_COPPER_8G – 0x6
• FI_MASTER_FIBER_8G – 0x7
• SLAVE_FIBER_8G – 0x8
• MASTER_COPPER_12_2 – 0x9
• SLAVE_COPPER_24 – 0xA
• FI_SLAVE_COPPER_24 – 0xB
• SLAVE_100FX_16 – 0xC
• SLAVE_100FX_8 – 0xD
• SLAVE_COPPER_8G – 0xE
• SLAVE_COPPER_16_2 – 0xF
• STACK_FIBER_8G – 0x10
• STACK_COPPER_8G – 0x11
• MASTER_FIBER_2G – 0x12
• SLAVE_100FX_24 – 0x13
• MASTER_FIBER_0G – 0x14
• POS_622M – 0x15
• POS_155M – 0x16
• SLAVE_FIBER_2G – 0x17
• SLAVE_COPPER_2G – 0x18
• FI_SLAVE_FIBER_2G – 0x19
• FI_SLAVE_FIBER_4G – 0x1A
• FI_SLAVE_FIBER_8G – 0x1B
• FI_SLAVE_COPPER_8G – 0x1C
• FI_MASTER_COPPER_8G – 0x1D
• POS_155M2P – 0x1E
• FI_MASTER_COPPER_4G – 0x1F
• FI_MASTER_COPPER_2G – 0x20
• MASTER_COPPER_4G – 0x21
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 5-7
Foundry Management Information Base Reference
snAgentBrdMainBrdId (continued) Octet 2 – Module type (continued):
• MASTER_COPPER_2G – 0x22
• MASTER_M4_8G – 0x23
• MASTER_M4_4G – 0x24
• MASTER_M4_2G – 0x25
• MASTER_M4_0G – 0x26
• MASTER_M5_0G – 0x27
• POS_2488M – 0x28
• SLAVE_M5_0G – 0x29
• POS_N2488M – 0x2A
• STACK_IPC_48_2 – 0x2B
• SLAVE_NPA_FIBER_4G – 0x2C
• ATM_2PORT – 0x2D
• ATM_4PORT – 0x2E
• SLAVE_FIBER_10G – 0x2F
• SLAVE_JC_48E – 0xC3
• SLAVE_JC_48T – 0xC4
• MASTER_JC_M4_8G – 0xC5
• SLAVE_JC_8G – 0xC6
• SLAVE_JC_B16GF – 0xC8
• MASTER_JC_B2404 – 0xC9
• SLAVE_JC_B16GC – 0xCA
• SLAVE_JC_B24FX – 0xCE
Octet 3 – Processor type:
• PVR_M603 – 3
• PVR_M604 – 4
• PVR_M603E – 6
• PVR_M603EV – 7
• PVR_M750 – 8
• PVR_M604E – 9
Octet 4 to Octet 5 – Processor speed in MHz
Name, OID, and Syntax Access Description
5-8 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
snAgentBrdMainBrdId (continued) Octet 6 – MAC type:
• MAC_None – 0
• MAC_SEEQ_10_100 – 1
• MAC_DEC_10_100 – 2
• MAC_3COM_10_100 – 3
• MAC_X10GMAC_10000 – 4
• MAC_SEEQ_1000 – 5
• MAC_GMAC_1000 – 6
• MAC_VLSI_1000 – 7
• PHY_LEVEL24 – 8
Octet 7 – PHY type:
• PHY_NONE – 0
• PHY_QSI – 1
• PHY_BROADCOM – 2
• PHY_ICS – 3
• PHY_NATIONAL – 4
• PHY_LEVEL1 – 6
• PHY_LEVEL16 – 7
• PHY_LEVEL24 – 8
• PHY_BROADCOM_10000 – 9
Octet 8 – Port type:
• COPPER – 0
• FIBER – 1
Octet 9 – Fiber port type:
• NONFIBER – 0
• SX_FIBER – 1
• LX_FIBER – 2
• LHX_FIBER – 3
Octet 10 to Octet 13 – Size of DRAM in KBytes
Octet 14 to Octet 17 – Size of boot flash in KBytes
Octet 18 to Octet 21 – Size of code flash in KBytes
Octet 22 to Octet 27 – Serial number
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 5-9
Foundry Management Information Base Reference
snAgentBrdMainBrdId (continued) Octet 28 – Chassis backplane type.
• chassis4000 – 0x00
• chassis8000 – 0x04
• chassis15000 – 0x05
• Turbo8 – 0x07 (stack2)
• FastIron2 – 0x06 (stack1)
snAgentBrdMainPortTotal
fdry.1.1.2.2.1.1.4
Syntax: Integer
Read only Shows the total number of ports on the main board.
snAgentBrdExpBrdDescription
fdry.1.1.2.2.1.1.5
Syntax: Display string
Read only Contains the expansion board description string. Expansion boards are those boards attached to the main board. This object can have up to 128 characters.
snAgentBrdExpBrdId
fdry.1.1.2.2.1.1.6
Syntax: Octet string
Read only IThe expansion board identifier. Expansion boards are those boards attached to the main board. It is an encoded octet string with the following meaning:
Octet 0 – Identifies the format of this string. This octet has a value of 1.
Octet 1 – Expansion board type:
• HUNDRED_MEG_1PORT – 1
• HUNDRED_MEG_2PORT – 2
• HUNDRED_MEG_1PORT_COPPER – 3
• HUNDRED_MEG_2PORT_COPPER – 4
• HUNDRED_MEG_2PORT_LX – 5
• GIGA_1PORT – 8
• GIGA_2PORT – 9
Octet 2 – Fiber port type:
• NONFIBER – 0
• SX_FIBER – 1
• LX_FIBER – 2
• LHX_FIBER – 3
• LX_SX_FIBER – 4
snAgentBrdExpPortTotal
fdry.1.1.2.2.1.1.7
Syntax: Integer
Read only Shows the total number of ports for the expansion board.
Name, OID, and Syntax Access Description
5-10 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
snAgentBrdStatusLeds
fdry.1.1.2.2.1.1.8
Syntax: Integer
Read only Applies to devices running IronWare release 07.1.00 and earlier. Refer to the “Bit Map of LEDs” in Figure 5.1 on page 5-22. It is replaced by the object snAgentBrdStatusLedString in Release 07.2. and later.
The value of this LED can be one of the following:
0 – Link off
1 – Link on
snAgentBrdTrafficLeds
fdry.1.1.2.2.1.1.9
Syntax: Integer
Read only Applies to devices running IronWare release 07.1.00 and earlier. Refer to the “Bit Map of LEDs” in Figure 5.1 on page 5-22. It is replaced by the object snAgentBrdTrafficLedString in Release 07.2. and later.
The value of this LED can be one of the following:
0 – No traffic.
1 – Traffic is flowing.
snAgentBrdMediaLeds
fdry.1.1.2.2.1.1.10
Syntax: Integer
Read only Applies to devices that have an LED for media type and are running IronWare release 07.1.00 and earlier. Refer to the “Bit Map of LEDs” in Figure 5.1 on page 5-22. It is replaced by the object snAgentBrdMediaLedString in Release 07.2. and later.
The value of this LED can be one of the following:
0 – Half duplex.
1 – Full duplex.
snAgentBrdSpeedLeds
fdry.1.1.2.2.1.1.11
Syntax: Integer
Read only Applies to devices that have an LED for board speed and are running IronWare release 07.1.00 and earlier. Refer to the “Bit Map of LEDs” in Figure 5.1 on page 5-22. It is replaced by the object snAgentBrdSpeedLedString in Release 07.2. and later.
The value of this LED can be one of the following:
0 – 10 Mbit
1 – 100Mbit
snAgentBrdModuleStatus
fdry.1.1.2.2.1.1.12
Syntax: Integer
Read only Shows the status of a module:
• notActivated(0) – The module is not activated
• moduleEmpty(0) – The slot of the chassis is empty
• moduleGoingDown(2) – The module is going down
• moduleRejected(3) – The module is being rejected due to a wrong configuration
• moduleBad(4) – The module hardware is bad
• moduleComingUp(9) – The module is in power-up cycle
• moduleRunning(10) – The module is running
By default, this mode is set to notActivated(0).
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 5-11
Foundry Management Information Base Reference
snAgentBrdRedundantStatus
fdry.1.1.2.2.1.1.13
Syntax: Integer
Read only Shows the status of the redundant module. Non-management modules always return other(1).
The management module returns the rest of the states:
• other(1)
• active(2)
• standby(3)
• crashed(4)
• comingUp(5)
snAgentBrdAlarmLeds
fdry.1.1.2.2.1.1.14
Syntax: Integer
Read only Applies to devices with an alarm LED and are running IronWare release 07.1.00 and earlier. Refer to the “Bit Map of LEDs” in Figure 5.1 on page 5-22. It is replaced by the object snAgentBrdAlarmLedString in Release 07.2. and later.
The value of this LED can be one of the following:
0 – No alarm
1 – Alarm
snAgentBrdTxTrafficLeds
fdry.1.1.2.2.1.1.15
Syntax: Integer
Read only Applies only to POS modules that have an LED for transmit traffic and are running Release 07.1.00 and earlier. Refer to the “Bit Map of LEDs” in Figure 5.1 on page 5-22. It is replaced by the object snAgentBrdTxTrafficLedString in Release 07.2. and later.
The value of this LED can be one of the following:
0 – No transmit traffic
1 – Transmit traffic
snAgentBrdRxTrafficLeds
fdry.1.1.2.2.1.1.16
Syntax: Integer
Read only Applies only to POS modules that have an LED for transmit traffic and are running Release 07.1.00 and earlier. Refer to the “Bit Map of LEDs” in Figure 5.1 on page 5-22. It is replaced by the object snAgentBrdRxTrafficLedString in Release 07.2. and later.
The value of this LED can be one of the following:
0 – No receive traffic (off)
1 – Has receive traffic (on)
snAgentBrdStatusLedString
fdry.1.1.2.2.1.1.17
Syntax: Octet string
Applies to devices IronWare release 07.2.00 and later. It contains an octet string that shows the value of the status of the link LED on the front panel. There are 64 bits per slot. The value of each bit can be one of the following:
0 – Link is off
1 – Link is on
Name, OID, and Syntax Access Description
5-12 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
NOTE: The objects snAgentBrdStatusLedString, snAgentBrdTrafficLedString, snAgentBrdMediaLedString, snAgentBrdSpeedLedString, snAgentBrdAlarmLedString, snAgentBrdTxTrafficLedString, and snAgentBrdRxTrafficLedString provide information on the status LEDs on a device. However, some of these objects apply only to POS modules.
Agent Temperature Table (snAgentTemp Table)This section displays the SNMP MIB objects for temperature readings on FESX and FWSX devices (software releases 02.2.00 and later), such as intake side temperature.
snAgentBrdTrafficLedString
fdry.1.1.2.2.1.1.18
Syntax: Octet string
Read only Applies to devices running IronWare release 07.2.00 and later. It contains an octet string that shows the status of the traffic. There are 64 bits per slot. The value of each bit can be one of the following:
0 – No traffic
1 – Traffic is flowing
snAgentBrdMediaLedString
fdry.1.1.2.2.1.1.19
Syntax: Octet string
Read only Applies to devices with an LED for media type and running Release 07.2.00 and later. It contains an octet string with 64 bits per slot. The value of each bit can be one of the following:
0 – Half duplex
1 – Full duplex
snAgentBrdSpeedLedString
fdry.1.1.2.2.1.1.20
Syntax: Octet string
Read only Applies to devices that have an LED for traffic speed and are running IronWare release 07.2.00 and later. Contains an octet string with 64 bits per slot. The value of each bit can be one of the following:
0 – 10 Mbit
1 – 100 Mbit
snAgentBrdAlarmLedString
fdry.1.1.2.2.1.1.21
Syntax: Octet string
Read only Applies to devices that have an alarm LED and are running IronWare release 07.2.00 and later. Contains an octet string with 64 bits per slot. The value of each bit can be one of the following:
0 – No alarm
1 – Alarm
snAgentBrdTxTrafficLedString
fdry.1.1.2.2.1.1.22
Syntax: Octet string
Read only Applies only to POS modules running IronWare release 07.2.00 and later. IContains an octet string with 64 bits per slot. The value of each bit can be one of the following:
0 – No transmit traffic
1 – Has transmit traffic
snAgentBrdRxTrafficLedString
fdry.1.1.2.2.1.1.23
Syntax: Octet string
Read only Applies only to POS modules running IronWare release 07.2.00 and later. Contains an octet string with 64 bits per slot. The value of each bit can be one of the following:
0 – No receive traffic
1 – Has receive traffic
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 5-13
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The Agent Temperature Table shows temperature reading information for each module’s temperature sensor.
Configured Module TableThe Configured Module Table contains information about modules. It includes the object “snAgentConfigModuleSerialNumber”, which contains the serial number of a device. These objects are available in all chassis devices:
• BigIron 4000, BigIron 8000, and BigIron 15000
• FastIron III
• FastIron 400, FastIron 800, and FastIron 1500
• NetIron 400, NetIron 800, and NetIron 1500
Name, OID, and Syntax Access Description
snAgentTempTable
fdry.1.1.2.13.1
N/A A table that displays the temperature reading for each module’s temperature sensor. Note that temperature readings are displayed only for those modules that have temperature sensors.
snAgentTempEntry
fdry.1.1.2.13.1.1
N/A A row in the Agent Temperature table.
snAgentTempSlotNum
fdry.1.1.2.13.1.1.1
Syntax: Integer
N/A The slot number of the module to which the temperature sensor is attached.
snAgentTempSensorId
fdry.1.1.2.13.1.1.2
Syntax: Integer
N/A The identification number of the module’s temperature sensor.
The following applies to the Management modules:
• Sensor 1 – the intake temperature
• Sensor 2 – the exhaust-side temperature
snAgentTempSensorDescr
fdry.1.1.2.13.1.1.3
Syntax: Display string
Read only A description of the temperature sensor.
snAgentTempValue
fdry.1.1.2.13.1.1.4
Syntax: Integer
Read only The temperature reading for the temperature sensor. This value is displayed in units of 0.5 degrees Celsius.
Valid values: -110 – 250
Name, OID, and Syntax Access Description
snAgentConfigModuleTable
fdry.1.1.2.8.1
None A table of information about each configured module.
snAgentConfigModuleEntry
fdry.1.1.2.8.1.1
None A row in the Agent Configured Module table.
5-14 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
snAgentConfigModuleIndex
fdry.1.1.2.8.1.1.1
Syntax: Integer
Read only The index to the Agent Configured Module Table.
The modules configured are using the “#module“ command. The “show run” command may list these modules at the beginning of the list, but these modules may not really exist in the system.
snAgentConfigModuleType
fdry.1.1.2.8.1.1.2
Syntax: Integer
Read-write
The module type that has been configured for the device:
• bi8PortGigManagementModule(0)
• bi4PortGigManagementModule(1)
• bi16PortCopperManagementModule(2)
• bi4PortGigModule(3)
• fi2PortGigManagementModule(4)
• fi4PortGigManagementModule(5)
• bi8PortGigCopperManagementModule(6)
• fi8PortGigManagementModule(7)
• bi8PortGigModule(8)
• bi12PortGigCopper2PortGigFiberManagement(9)
• bi24PortCopperModule(10)
• fi24PortCopperModule(11)
• bi16Port100FXModule(12)
• bi8Port100FXModule(13)
• bi8PortGigCopperModule(14)
• bi12PortGigCopper2PortGigFiber(15)
• bi2PortGigManagementModule(18)
• bi24Port100FXModule(19)
• bi0PortManagementModule(20)
• pos622MbsModule(21)
• pos155MbsModule(22)
• bi2PortGigModule(23)
• bi2PortGigCopperModule(24)
• fi2PortGigModule(25)
• fi4PortGigModule(26)
• fi8PortGigModule(27)
• fi8PortGigCopperModule(28)
• fi8PortGigCopperManagementModule(29)
• pos155Mbs2PModule(30)
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 5-15
Foundry Management Information Base Reference
snAgentConfigModuleType (continued)
• fi4PortGigCopperManagementModule(31)
• fi2PortGigCopperManagementModule(32)
• bi4PortGigCopperManagementModule(33)
• bi2PortGigCopperManagementModule(34)
• bi8PortGigM4ManagementModule(35)
• bi4PortGigM4ManagementModule(36)
• bi2PortGigM4ManagementModule(37)
• bi0PortGigM4ManagementModule(38)
• bi0PortWSMManagementModule(39)
• biPos2Port2488MbsModule(40)
• bi0PortWSMModule(41)
• niPos2Port2488MbsModule(42)
• ni4802(43)
• bi4PortGigNPAModule(44)
• biAtm2Port155MbsModule(45)
• biAtm4Port155MbsModule(46)
• bi1Port10GigModule(47)
• fes4802Module(48)
• fes2402Module(49)
• fes9604Module(50)
• fes12GigCopperAndGigFiberModule(51)
• fesx24GigModule(52)
• fesx24Gig2TenGigModule(53)
• fesx24Gig1TenGigModule(54)
• fesx48GigModule(55)
• fesx48Gig2TenGigModule(56)
• fesx48Gig1TenGigModule(57)
• superx12ComboPortManagementModule(64)
• superx2PortTenGigModule(65)
• superx24PortGigCopperModule(66)
• superx24PortGigFiberModule(67)
• superx2PortTenGigLanWanModule(68)
• superx24Port100tx1PortGigFiberModule(69)
• superx12ComboPortManagement2Module(74)
• superxR2PortTenGigManagementModule(80)
• superxRManagementModule(81)
Name, OID, and Syntax Access Description
5-16 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
snAgentConfigModuleType (continued)
• fesx24GigFiberGigCopperModule(112)
• fesx24GigFiber2TenGigModule(113)
• fesx24GigFiber1TenGigModule(114)
• biFiJc48ePort100fxIpcModule(195)
• biFiJc48tPort100fxIpcModule(196)
• biFiJc8PortGigM4ManagementModule(197)
• biFiJc8PortGigIgcModule(198)
• biFiJc16PortGigIgcModule(200)
• biJc24PortCopperIpc4GigIgcModule(201)
• biJc16PortGigCopperIgcModule(202)
• biFiJc24Port100fxIpcModule(206)
• bi2Port10GigModule(207)
• biJc48tPortRJ21OmpModule(208)
• biJc48ePortRJ45OmpModule(209)
• biJc24PortIpcRJ45PoeModule(212)
• biJc2PortGigIgcM4ManagementModule(214)
snAgentConfigModuleRowStatus
fdry.1.1.2.8.1.1.3
Syntax: Integer
Read-write
To create or delete a configured module table entry.
• other(1)
• valid(2)
• delete(3)
• create(4)
snAgentConfigModuleDescription
fdry.1.1.2.8.1.1.4
Syntax: Display string
Read only A description of the configured module.
snAgentConfigModuleOperStatus
fdry.1.1.2.8.1.1.5
Syntax: Display string
Read only Module operational status. A blank indicates that the physical module has not been inserted to the chassis.
snAgentConfigModuleSerialNumber
fdry.1.1.2.8.1.1.6
Syntax: Display string
Read only Module serial number. A blank indicates that the serial number has not been programmed in the module’s EEPROM or the serial number is not supported in the module.
In IronWare releases before 07.5.0, this object returns a NULL string, indicating that it is a place holder for a serial number. Beginning with IronWare release 07.5.0 this object returns the device serial number.
snAgentConfigModuleNumberOfPorts
fdry.1.1.2.8.1.1.7
Syntax: Integer,
Read only The number of ports in the module.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 5-17
Foundry Management Information Base Reference
Redundant ModulesUse these objects to manage redundant management modules in all Foundry devices except for the ServerIron products. Refer to the chapter “Traps and Objects to Enable Traps” on page 30-1for objects dealing with traps.
snAgentConfigModuleMgmtModuleType
fdry.1.1.2.8.1.1.8
Syntax: Integer
Read only The management module type:
• other(1)
• nonManagementModule(2)
• unknownManagementModule(3)
• m1ManagementModule(4)
• m2ManagementModule(5)
• m3ManagementModule(6)
• m4ManagementModule(7)
• m5ManagementModule(8)
• jetcoreStackManagementModule(9)
• muchoManagementModule(10)
• rottWeilerManagementModule(11)
• fesXStackManagementModule(12)
• fgsStackManagementModule(13) }
snAgentConfigModuleNumberOfCpus
fdry.1.1.2.8.1.1.9
Syntax: Integer
Read only The number of CPUs in the module.
Name, OID, and Syntax Access Description
snAgentRedunActiveMgmtMod
fdry.1.1.2.10.1.1
Syntax: Integer
Read-write
Shows the slot number of the active management module. Setting this object does not take effect immediately. You must save the configuration data to flash storage, then reboot the system before the new value takes effect. Setting a value of 0 requests the system to auto-select an active management module after power up.
Default: 0.
snAgentRedunSyncConfig
fdry.1.1.2.10.1.2
Syntax: Integer
Read-write
Shows how often the data in the active management module will be copied to the backup management module. The value for this object is in seconds.
Setting this object to 0 disables the copy process. Setting it to a negative value starts the process immediately, but runs only once.
Default: every 10 seconds
Name, OID, and Syntax Access Description
5-18 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
snAgentRedunBkupCopyBootCode
fdry.1.1.2.10.1.3
Syntax: Integer
Read-write
If enabled, the backup management module copies the boot code of the active management module to its boot code flash storage after power up, and whenever the active management module’s boot code is updated. The backup management module does not copy the boot code if is identical to what is already in flash storage:
• Disabled(0)
• Enabled(1)
Default: disabled(0)
snAgentRedunBkupBootLoad
fdry.1.1.2.10.1.5
Syntax: Integer
Read-write
Downloads a new boot code from boot flash storage of the active management module to the backup management module.
In a set operation, enter the value downloadBackup(20) to download the boot code from the active management module to the backup management module. A set operation is rejected during a download until error or normal state is reached.
One of the following values are returned by a get operation:
• normal(1) – no operation
• operationError(17) – error codes
• downloadbackup(20) – download boot code from active module to backup to the backup module
snAgentRedunSwitchOver
fdry.1.1.2.10.1.6
Syntax: Integer
Read-write
Switches a backup management module to an active management module.
• other(1)
• reset(2) – Resets the backup module to active.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 5-19
Foundry Management Information Base Reference
Stackable ProductsThe objects in this section are specific to Stackable devices, which include the following models:
• FastIron
• ServerIron
• NetIron
The objects for stackable devices are presented in the following sections:
• “Boards” on page 5-21
• “LEDs” on page 5-22
Refer to the “Agent Board Table” on page 5-6 for objects that apply to chassis devices.
NOTE: The MIB contains objects under the snStackGen (General Stackable Management Information) and snStackSecSwitchInfo (Stackable Management Secondary Switch Information Table) groups are not supported. They include the following objects:
snStackPriSwitchMode
snStackMaxSecSwitch
snStackTotalSecSwitch
snStackSyncAllSecSwitch
snStackSmSlotIndex
snStackFmpSetProcess
snStackSecSwitchTable
snStackSecSwitchEntry
snStackSecSwitchIndex
snStackSecSwitchSlotId
snStackSecSwitchPortCnts
snStackSecSwitchEnabled
snStackSecSwitchAck
snStackSecSwitchMacAddr
snStackSecSwitchSyncCmd
snStackSecSwitchIpAddr
snStackSecSwitchSubnetMask
snStackSecSwitchCfgCmd
5-20 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
Boards The following objects apply only to stackable ServerIron products.
Name, Identifier, and Syntax Access Description
snChasMainBrdDescription
fdry.1.1.1.1.5
Syntax: Display string
Read only Shows the main board. This object can have up to 128 characters.
snChasMainPortTotal
fdry.1.1.1.1.6
Syntax: Integer
Read only Shows the total number of ports on the main board.
Valid values: 1 – 24
snChasExpBrdDescription
fdry.1.1.1.1.7
Syntax: Display string
Read only Shows the description of the expansion board. This object can have up to 128 characters.
snChasExpPortTotal
fdry.1.1.1.1.8
Syntax: Integer
Read only Shows the total number of ports ion the expansion board.
Valid values: 1 – 24
snChasExpBrdId
fdry.1.1.1.1.14
Syntax: Octet string
Read only Applies only to stackable ServerIron products.
It identifies the expansion board, the board that attaches to the main board. It is an encoded octet string. The octets provide the following information:
Octet 0 – Identifies the format of this octet string.
If Octet 0 has a value of 1, the values of the remaining octets are:
Octet 1 – Expansion board type:
• HUNDRED_MEG_1PORT – 1
• HUNDRED_MEG_2PORT – 2
• HUNDRED_MEG_1PORT_COPPER – 3
• HUNDRED_MEG_2PORT_COPPER – 4
• HUNDRED_MEG_2PORT_LX – 5
• GIGA_1PORT – 8, GIGA_2PORT – 9
Octet 2 – Fiber port type:
• NONFIBER – 0
• SX_FIBER – 1
• LX_FIBER – 2
• LHX_FIBER – 3
• LX_SX_FIBER – 4
April 2008 © 2008 Foundry Networks, Inc. 5-21
Foundry Management Information Base Reference
LEDsThis section presents the objects that apply to LEDs in stackable ServerIron devices. Figure 5.1 shows a bit map of LEDs in Foundry products. Some objects in the MIB refer to this bit map.
Figure 5.1 Bit Map of LEDs
Each LED contains one bit representing a switch port. Each bit shows the value of the LED. The expansion port number always begins from the last main port number.
Port 1 Port 2 Port 3 Port 4 Port 5 Port 6 Port 7 Port 8
Bit 0 Bit 1 Bit 2 Bit 3 Bit 4 Bit 5 Bit 6 Bit 7
Byte 1 LED 1 LED 2 LED 3 LED 4 LED 5 LED 6 LED 7 LED 8
Byte 2 LED 9 LED 10 LED 11 LED 12 LED 13 LED 14 LED 15 LED 16
Byte 3 LED 17 LED 18 LED 19 LED 20 LED 21 LED 22 LED 23 LED 24
. . . . . . . . . . . . . . . . . . . . . . . . . . .
Name, OID, and Syntax Access Description
snChasStatusLeds
fdry.1.1.1.1.9
Syntax: Integer
Read only Applies to devices running Release 07.1.00 and earlier. It is replaced by the object snAgentBrdStatusLedString in later releases.
This LED on the front panel of a device shows the status of the link. It is represented by one bit. There can be up to 32 bits per slot. Refer to the “Bit Map of LEDs” in Figure 5.1 on page 5-22. Status can be one of the following:
0 – Link off
1 – Link on
snChasTrafficLeds
fdry.1.1.1.1.10
Syntax: Integer
Read only Applies to devices running Release 07.1.00 and earlier. It is replaced by the object snAgentBrdTrafficLedString in later releases.
This LED on the front panel of a device shows the traffic status. It is represented by one bit. There can be up to 32 bits per slot. Refer to the “Bit Map of LEDs” in Figure 5.1 on page 5-22. Status can be one of the following:
0 – No traffic
1 – Traffic is flowing
snChasMediaLeds
fdry.1.1.1.1.11
Syntax: Integer
Read only Applies to devices that have an LED for media type and are running Release 07.1.00 and earlier. It is replaced by the object snAgentBrdMediaLedString in later releases.
It is represented by one bit. There can be up to 32 bits per slot. Refer to the “Bit Map of LEDs” in Figure 5.1 on page 5-22. Status can be one of the following:
0 – Half duplex
1 – Full duplex
5-22 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
snChasSpeedLeds
fdry.1.1.1.1.15
Syntax: Integer
Read only Applies to devices that have an LED for media speed and are running Release 07.1.00 and earlier. It is replaced by the object snAgentBrdSpeedLedString in later releases.
It is represented by one bit. There can be up to 32 bits per slot. Refer to the “Bit Map of LEDs” in Figure 5.1 on page 5-22. Status can be one of the following:
0 – 10 Mbit
1 – 100 Mbit
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 5-23
Foundry Management Information Base Reference
Chassis ProductsThe objects in this section apply to the following Foundry devices:
• BigIron 4000, BigIron 8000, and BigIron 15000
• FastIron 4802
• FastIron II, and FastIron III
• FastIron 400, FastIron 800, and FastIron 1500
• NetIron 400, NetIron 800, and NetIron 1500
• ServerIron 400 and ServerIron 800
• TurboIron/8
The objects for these devices are presented in the following sections:
• “General Chassis” on page 5-24
• “Power Supply Table” on page 5-25
• “Fan Table” on page 5-25
• “Temperature” on page 5-26
• “Flash Card” on page 5-27
General ChassisThe following objects apply to all chassis-based Foundry devices.
Name, Identifier, and Syntax Access Description
snChasType
fdry.1.1.1.1.1
Syntax: Display string
Read only Shows the type of Foundry device being managed. This object can have up to 128 characters.
Possible value – 1
snChasSerNum
fdry.1.1.1.1.2
Syntax: Display string
Read only Shows the serial number of the chassis stored in the EEPROM of the device. This is not the serial number on the label of the device.
If the chassis serial number is available, it is the lowest three octets of the lowest MAC address in the device. For example, if the lowest MAC address is 00e0 52a9 2b20, then the serial number of the chassis is a92b20 .
If the serial number is unknown or unavailable, then the value is a null string.
This object can have up to 128 characters.
5-24 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
Power Supply TableThe following table applies to the power supplies in chassis products
Fan Table The following table applies to fans in all chassis products.
Name, OID, and Syntax Access Description
snChasPwrSupplyTable
fdry.1.1.1.2.1
None A table containing power supply information. Only installed power supplies appear in the table.
snChasPwrSupplyEntry
fdry.1.1.1.2.1.1
None A row in the power supply table. One row appears for each power supply.
snChasPwrSupplyIndex
fdry.1.1.1.2.1.1.1
Syntax: Integer
Read only The index to power supply table.
snChasPwrSupplyDescription
fdry.1.1.1.2.1.1.2
Syntax: Display string
Read only The power supply description. For example, you may see the description, “right side power supply”. This object can have up to 128 characters.
snChasPwrSupplyOperStatus
fdry.1.1.1.2.1.1.3
Syntax: Integer
Read only Shows the status of the power supply:
• other(1) – Status is neither normal(2) or failure(3). This value is not used for stackables including FastIron 4802, BigIron 4000, BigIron 8000, and BigIron 15000.
• normal(2)
• failure(3)
Name, Identifier, and Syntax Access Description
snChasFanTable
fdry.1.1.1.3.1
None A table containing fan information. Only installed fans appear in the table.
snChasFanEntry
fdry.1.1.1.3.1.1
None A row in the fan table. One row appears for each installed fan.
snChasFanIndex
fdry.1.1.1.3.1.1.1
Syntax: Integer
Read only The index to the fan table.
snChasFanDescription
fdry.1.1.1.3.1.1.2
Syntax: Display string
Read only The fan description. For example, you may see the description “left side panel, back fan”. This object can have up to 128 characters.
April 2008 © 2008 Foundry Networks, Inc. 5-25
Foundry Management Information Base Reference
TemperatureThe following objects manage temperature sensors in all Foundry devices, except the ServerIron products. Refer to the chapter “Traps and Objects to Enable Traps” on page 30-1for objects dealing with traps.
NOTE: When performing an SNMP ISO MIB walk of the BigIron RX, increase the snmpwalk timeout to 10 seconds; otherwise, the MIB walk may time out before SNMP obtains the temparature values for the modules.
snChasFanOperStatus
fdry.1.1.1.3.1.1.3
Syntax: Integer
Read only Shows the status of the fan operation:
• other(1) – Beginning with IronWare software release 7.6.01, this value means “not manageable” to refer to Fans 5 and 6 in the BigIron 15000. It has no meaning for other devices.
• normal(2)
• failure(3)
Name, OID, and Syntax Access Description
snChasActualTemperature
fdry.1.1.1.1.18
Syntax: Integer
Read only Applies only to management modules with temperature sensors.
Shows the temperature of the chassis. Each unit is 0.5 degrees Celsius.
NOTE: If you are comparing this value to the value you get when you enter a show chassis command on the CLI, divide this value by 2. The result is the actual temperature you see in the CLI. This was done intentionally to represent tenth decimal values in SNMP, as SNMP can only report INTEGER values.
Valid values: 110 – 250
snChasWarningTemperature
fdry.1.1.1.1.19
Syntax: Integer
Read-write
Applies only to management modules with temperature sensors.
Shows the threshold for the warning temperature. When the actual temperature exceeds this value, the switch sends a temperature warning trap. Each unit is 0.5 degrees Celsius.
Valid values: 0 – 250
snChasShutdownTemperature
fdry.1.1.1.1.20
Syntax: Integer
Read-write
Applies only to management modules with temperature sensors.
Shows the temperature threshold that triggers the device to shut down. When the actual temperature exceeds this value the switch shuts down a portion of the hardware to cool down the device. Each unit is 0.5 degrees Celsius.
Valid values: 0 – 250
Name, Identifier, and Syntax Access Description
5-26 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
Flash CardThe following objects manage the flash cards in all Foundry devices, except the ServerIron products.
Name, OID, and Syntax Access Description
snChasFlashCard
fdry.1.1.1.1.22
Syntax: Integer
Read only Applies only to M4 management modules. This object is a bit array that contains the flash card status.
This is a packed bit string. The status of each flash card is encoded into one bit. There can be up to two flash cards.
The bits are:
• 2 to 31 – Reserved
• 1 – Flash card 2 status
• 0 – Flash card 1 status
(Bit 0 is the least significant bit.)
Flash card status can be one of the following:
• 0 – Flash card is absent
• 1 – Flash card is present
snChasFlashCardLeds
fdry.1.1.1.1.23
Syntax: Integer
Read only Shows the status of LEDs on a flash card. This is a 32-bit integer type object. Each bit shows one of the following:
• 0 – Flash card is off
• 1 – Flash card is on
snchasnumslots
fdry.1.1.1.1.24
Syntax: Integer
Read only Shows the number of slots in the chassis.
snchasarchitectureType
fdry.1.1.1.1.25
Syntax: Integer
Read only Shows the architecture type.
stackable(1), -- old stackable
bigIron(2),
terathon(3),
fifthGen(4)}
April 2008 © 2008 Foundry Networks, Inc. 5-27
Foundry Management Information Base Reference
Optical Monitoring MIB ObjectsThe following MIB objects are available in software release 03.4.00 for the NetIron XMR Series and NetIron MLX Series. They are used to monitor optics on the fiber-optic modules installed on the NetIron XMR Series and NetIron MLX devices.
snchasProductType
fdry.1.1.1.1.26
Syntax: Integer
Read only Shows the product type. The following shows the meaning of each bit:
Bit value/Chassis
15:BigIron RX-32
14:NetIron XMR 32000
13:NetIron MLX-32
9: NetIron XMR 4000
8: BigIron RX 200
7: NetIron XMR 8000
6: BigIron RX 400
5: NetIron XMR 16000
4: NetIron RX 800
3: NetIron IMR 640
2: NetIron 40G
1: BigIron MG8
0: invalid
Name, OID, and Syntax Access Description
snIfOpticalMonitoringInfoTable
fdry.1.1.3.3.6
None This table lists the instrumented parameters of all optical interfaces.
REFERENCE: "ITU recommendations G.783, G.784, G.953"
snIfOpticalMonitoringInfoEntry
fdry.1.1.3.3.6.1
None This table is indexed by ifIndex standard MIB of the physical optical ports that are to be monitored. Only the ifIndexes of optical interfaces whose parameters need to be monitored will be used to index this table.
snIfOpticalMonitoringTemperature
fdry.1.1.3.3.6.1.1.1
Syntax: DisplayString (SIZE(0..32))
Read only This object shows the temperature of the transmitter laser diode for the interface, and indicates the health of the transmitter. The format is xxx.yyyy Celcius, followed by whether the measured value is normal, high/low alarm, or high/low warning.
For example, you may see “30.9453 C: Normal”.
snIfOpticalMonitoringTxPower
fdry.1.1.3.3.6.1.1.2
Syntax: DisplayString (SIZE(0..32))
Read only This object shows the signal power for the transmitter optical signal for the interface. Signal power is measured in dBm, followed by whether this is a normal value, or high/low warning, or alarm.
For example, you may see “-002.1119 dBm: Normal”.
Name, OID, and Syntax Access Description
5-28 © 2008 Foundry Networks, Inc. April 2008
Physical Properties of a Device
snIfOpticalMonitoringRxPower fdry.1.1.3.3.6.1.1.3
Syntax: DisplayString (SIZE(0..32))
Read only This object shows the signal power of the receiver optical for the interface. Signal power is measured in dBm, followed by whether this is a normal value, or high/low warning, or alarm.
For example, you may see “-003.7582 dBm: Normal”.
snIfOpticalMonitoringTxBiasCurrent
fdry.1.1.3.3.6.1.1.4
Syntax: DisplayString (SIZE(0..32))
Read only This object shows the Transmit Bias Current. It is measured in mA, and is followed by whether this is a normal value, or high/low warning, or alarm.
For example, you may see, “32.426 mA: Normal”.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 5-29
Foundry Management Information Base Reference
5-30 © 2008 Foundry Networks, Inc. April 2008
Chapter 6Basic Configuration and Management
This chapter describes objects to manage the software image and configuration in a device: It includes the following sections:
• “Software Image” on page 6-1
• “Software Configuration” on page 6-13
• “Error Management” on page 6-29
• “FDP and CDP” on page 6-30
Refer to the Foundry Switch and Router Installation and Basic Configuration Guide and the Foundry ServerIron Installation and Configuration Guide for detailed explanation on the features discussed in this chapter.
Software Image• “Reload” on page 6-2
• “NVRAM” on page 6-2
• “File Download and Upload” on page 6-4
• “Software Image Details” on page 6-9
• “Boot Sequence Table” on page 6-12
April 2008 © 2008 Foundry Networks, Inc. 6-1
Foundry Management Information Base Reference
ReloadThe following object allows you to reload the agent.
NVRAMThe objects in this section apply to all devices that use non-volatile random access memory (NVRAM), a type of memory that retains its contents when power is turned off. These objects are available in all Foundry devices.
Name, OID, and Syntax Access Description
snAgReload
fdry.1.1.2.1.1
Syntax: Integer
Read-write Reboots the agent.
The following value can be written:
• reset(3) – Do a hard reset
NOTE: To use reset(3), make sure that either the “no snmp-server pw-check" CLI command has been configured in the device or the varbind, and snAgGblPassword, with the appropriate password has been added to the SetRequest PDU. The default value of snAgGblPassword is the “enable” super-user password. If the CLI command "aaa authentication snmp-server default ..." is configured, then the method list determines the value expected in the snAgGblPassword MIB object.
The agent will return a response before the action occurs.
The following values can only be read:
• other(1) – Agent is in unknown or other state
• running(2) – Agent is running
This object requires a password to be set for the snAgGblPassword object.
Name, OID, and Syntax Access Description
snAgEraseNVRAM
fdry.1.1.2.1.2
Syntax: Integer
Read-write
Erases the NVRAM of the agent. This object can have one of the following values:
• normal(1) – NVRAM is not being erased.
• error(2) – Either the erase operation failed or the flash memory is bad
• erase(3) – NVRAM is set to be erased
• erasing(4) – NVRAM is being erased. Once the process starts, you cannot set this object to erase(3) until the process is finished and the value of this object is either normal(1) or error(2)
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Configuration Notes on snAgEraseNVRAM and snAgWriteNVRAM
Refer to configuration notes for the snAgGblPassword object in the section “General Security Objects” on page 7-3 for more information on how to use snAgEraseNVRAM and snAgWriteNVRAM.
snAgWriteNVRAM
fdry.1.1.2.1.3
Syntax: Integer
Read-write
Saves all configuration information to NVRAM of the agent. The following values can only be read:
• normal(1)
• error(2) – Operation failed or the flash is bad
• writing(4) – Agent is writing NVRAM flash
The following value can be written:
• write(3) – Write operation
The agent will return a response even before the write operation is complete. The read values will be written until write operation is finished. New write requests will be rejected until an error(2) or normal(1) value is obtained.
NOTE: To use reset(3), make sure that either the “no snmp-server pw-check" CLI command has been configured in the device or the varbind and snAgGblPassword, with the appropriate password, has been added to the SetRequest PDU. The default value of snAgGblPassword is the “enable” super-user password. If the CLI command "aaa authentication snmp-server default ..." is configured, then the method list determines the value expected in the snAgGblPassword MIB object.
This object requires a password to be set for the snAgGblPassword object.
snAgConfigFromNVRAM
fdry.1.1.2.1.4
Syntax: Integer
None Configures the switch from NVRAM of the agent.
The following value can be written:
• config(3) – Do configuration
The following values can only be read:
• normal(1)
• error(2) – Operation failed or bad flash
• configing(4) – Configuring from NVRAM flash is in process.
The agent returns a response after configuration is done.
This object requires a password to be set for the snAgGblPassword object.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 6-3
Foundry Management Information Base Reference
File Download and Upload The following objects manage file downloads and uploads. They are available in all Foundry devices.
NOTE: When uploading or downloading configuration files to and from the TFTP server using SNMP, check the following:
• If the SNMP password check is enabled on the device, the object “snAgGblPassword” on page 7-3 must be sent with the following information in the same PDU as the TFTP objects:
• If the AAA is used for SNMP authentication and the authentication method is enable or line, then the value of snAgGlbPassword must be in cleartext format.
• If the AAA is used for SNMP authentication and the authentication method is local, RADIUS, TELNET, TACACS, or TACACS+, then the value of the snAgGlbPassword must be in the <user> <password> format. The space between <user> and <password> is the delimiter.
• If AAA is not used for authentication, then the value of snAgGlbPassword for the enable password must be in cleartext format.
• Make sure that user has administrative access (privilege=0) on the device; otherwise, the user will not be able to upload files to the TFTP server.
NOTE: An atomic set of snAgImgLoad, snAgImgFname, and snAgTftpServerIp (or snAgTftpServerAddrType and snAgTftpServerAddr), is required for a successful download or upload.
Name, OID, and Syntax Access Description
snAgTftpServerIp
fdry.1.1.2.1.5
Syntax: IpAddress
Read-write Shows the IP address of the TFTP server that will be used to download and upload image and configuration files.
NOTE: FastIron X Series IPv6 switches running software release FSX 04.1.00 or later use snAgTftpServerAddrType and snAgTftpServerAddr.
snAgImgFname
fdry.1.1.2.1.6
Syntax: Display string
Read-write Shows the name of the image file, including path, that is currently associated with the system. When the object is not used, the value is blank. It can have up to 32 characters.
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Basic Configuration and Management
snAgImgLoad
fdry.1.1.2.1.7
Syntax: Integer
Read-write Downloads or uploads a new software image to the agent. Use one of the following values in an SNMP set:
• uploadMPPrimary(19) – Uploads the primary image from the management processor flash memory to the TFTP server.
• downloadMPPrimary(20) – Downloads the primary image from the TFTP server to management processor flash.
• uploadMPSecondary(21) – Uploads the secondary image from the management processor flash memory to the TFTP server.
• downloadMPSecondary(22) – Downloads the secondary image from the TFTP server to management processor flash.
• downloadSPPrimary(24) – Downloads the secondary image from the TFTP server to secondary processor flash.
• downloadSPSecondary(25) – Downloads the secondary image from the TFTP server to secondary processor flash.
The following messages may be displayed:
• normal(1)
• flashPrepareReadFailure(2)
• flashReadError(3)
• flashPrepareWriteFailure(4)
• flashWriteError(5)
• tftpTimeoutError(6)
• tftpOutOfBufferSpace(7)
• tftpBusy(8)
• tftpRemoteOtherErrors(9)
• tftpRemoteNoFile(10)
• tftpRemoteBadAccess(11)
• tftpRemoteDiskFull(12)
• tftpRemoteBadOperation(13)
• tftpRemoteBadId(14)
• tftpRemoteFileExists(15)
• tftpRemoteNoUser(16)
• operationError(17)
• loading(18) – operation is in process
• uploadMPPrimary(19)
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 6-5
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snAgImgLoad (continued) • downloadMPPrimary(20)
• uploadMPSecondary(21)
• downloadMPSecondary(22)
• tftpWrongFileType(23)
• downloadSPPrimary(24)
• downloadSPSecondary(25)
This object requires a password to be set for the snAgGblPassword object.
snAgCfgFname
fdry.1.1.2.1.8
Syntax: Display string
Read-write Shows the name of the configuration file, including its path, currently associated with the system. If there are multiple configuration files, the names are separated by semicolons (;). This object can have up to 32 characters.
Name, OID, and Syntax Access Description
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snAgCfgLoad
fdry.1.1.2.1.9
Syntax: Integer
Read-write Downloads or uploads a configuration file to the agent. Use one of the following values for SNMP set:
• uploadFromFlashToServer(20) – Uploads the configuration file from the flash to the TFTP server.
• downloadToFlashFromServer(21) – Downloads the configuration file from the TFTP server to flash.
• uploadFromDramToServer(22) – Uploads the configuration file from the DRAM to the TFTP server.
• downloadToDramFromServer(23) – Downloads the configuration file from the TFTP server to DRAM.
• uploadFromFlashToNMS(24) – Uploads the configuration file from flash to the network management system.
• downloadToFlashFromNMS(25) – Downloads the configuration file from the network management system to flash.
• uploadFromDramToNMS(26) – Uploads the configuration file from DRAM to a network management system.
• downloadToDramFromNMS(27) – Downloads the configuration file from the network management system to DRAM.
The following values may be read:
• normal(1)
• flashPrepareReadFailure(2)
• flashReadError(3)
• flashPrepareWriteFailure(4)
• flashWriteError(5)
• tftpTimeoutError(6)
• tftpOutOfBufferSpace(7)
• tftpBusy(8)
• tftpRemoteOtherErrors(9)
• tftpRemoteNoFile(10)
• tftpRemoteBadAccess(11)
• tftpRemoteDiskFull(12)
• tftpRemoteBadOperation(13)
• tftpRemoteBadId(14)
• tftpRemoteFileExists(15)
• tftpRemoteNoUser(16)
• operationError(17)
• loading(18)
• tftpWrongFileType(29)
Name, OID, and Syntax Access Description
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In addition to the objects above, the following objects are available in all Foundry devices except in the ServerIron products.
The following objects are available in FastIron X Series IPv6 switches running software release FSX 04.1.00 or later. Releases prior to FSX 04.1.00 use snAgTftpServerIp.
snAgCfgLoad (continued) • operationDoneWithNMS(28)
• tftpWrongFileType(29)
• downloadToDramFromServerOverwrite(30)
NOTE:
The objects “snAgCfgFname” and “snAgTftpServerIp” are required to allow the download or upload process to occur.
No write requests will be allowed while a download or upload process is in progress.
The snAgCfgEosTable objects must be sent along in one PDU for network management systems to recognize values from (24) to (27).
A separate write memory using the CLI or an SNMP “set snAgWriteNVRAM” is required to save the configuration to NVRAM.
This object requires a password to be set for the snAgGblPassword object.
Name, OID, and Syntax Access Description
snAgImgLoadSPModuleType
fdry.1.1.2.1.56
Syntax: Integer
Read-write Shows the switch processor module type that receives the downloaded image:
• other(1)
• vm1(2)
• pos12(3)
• pos48(4)
• atm(5)
• gignpa(6)
snAgImgLoadSPModuleNumber
fdry.1.1.2.1.57
Read-write Shows the slot number of a switch processor module that receives the downloaded image. Setting this object to 0 means that switch processor modules will receive the image.
Name, OID, and Syntax Access Description
snAgTftpServerAddrType
fdry.1.1.2.1.65
Syntax: InetAddressType
Read-write Shows the IP address type of the TFTP server that will be used to download and upload image and configuration files.
Name, OID, and Syntax Access Description
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Basic Configuration and Management
Software Image DetailsThe following objects show information about software images in a device. These objects are available in all Foundry devices.
snAgTftpServerAddr
fdry.1.1.2.1.66
Syntax: InetAddress
Read-write Shows the IP address of the TFTP server that will be used to download and upload image and configuration files.
Name, OID, and Syntax Access Description
snAgImgVer
fdry.1.1.2.1.11
Syntax: Display string
Read only Shows the version of the running software. The software image file name is displayed in the format:
major.minor.maintenance[letters].
It can have up to 32 characters.
snAgFlashImgVer
fdry.1.1.2.1.12
Syntax: Display string
Read only Shows the version of the software image that has been saved in the local storage, such as the flash memory. The software image file name is displayed in the format:
major.minor.maintenance[letters]
It can have up to 32 characters.
If this file is unknown or not available, then this object displays a a null string.
Name, OID, and Syntax Access Description
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snAgSoftwareFeature
fdry.1.1.2.1.41
Syntax: Octet string
Read only Contains a bit string representing the software feature of the running software image. Each bit can have one of the following values:
• 0 – The feature is available
• 1 – The feature is available
Bit 0 is the least significant bit of an octet, and bit 7 is the most significant bit of an octet.
• Octet 0, bit 0 – RMON
• Octet 0, bit 1 – IPX switching
• Octet 0, bit 2 – Server Load Balancing
• Octet 0, bit 3 – Layer 3 filter in switch
• Octet 0, bit 4 – IPX routing
• Octet 0, bit 5 – AppleTalk routing
• Octet 0, bit 6 – IP multicast routing
• Octet 0, bit 7 – Local access control
• Octet 1, bit 0 – BGP routing
• Octet 1, bit 1 – Loopback interface
• Octet 1, bit 2 – BigIron multi-management module
• Octet 1, bit 3 – BigIron SYSIF II
• Octet 1, bit 4 – BigIron POS support
• Octet 1, bit 5 – AppleTalk cable VLAN
• Octet 1, bit 6 – 64 subnet
• Octet 1, bit 7 – multi-slot trunk
• Octet 2, bit 0 – TACACS
• Octet 2, bit 1 – Gigabit Ethernet port auto-negotiation mode
• Octet 2, bit 2 – FSRP
• Octet 2, bit 3 – Exodus requested OSPF enhancement
• Octet 2, bit 4 – OSPF NSSA
• Octet 2, bit 5 – POS
• Octet 2, bit 6 – QoS
• Octet 2, bit 7 – Single Span
Name, OID, and Syntax Access Description
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snAgSoftwareFeature (continued) • Octet 3, bit 0 – Fast Span
• Octet 3, bit 1 – Base L3
• Octet 3, bit 2 – static log buffer
• Octet 3, bit 3 – L2 POS
• Octet 3, bit 4 – BI15K
• Octet 3, bit 5 - L2 ATM
• Octet 3, bit 6 - ATM
• Octet 3, bit 7 - NETFLOW
• Octet 4, bit 0 - SFLOW
• Octet 4, bit 1 - GVRP
• Octet 4, bit 2 - GARP
• Octet 4, bit 3 - Dynamic trunk
• Octet 4, bit 4 - IGC 8G
• Octet 4, bit 5 - Rate limit
• Octet 4, bit 6 - IPC rate limit
• Octet 4, bit 7 - MPLS
• Octet 5, bit 0 - ISIS
• Octet 5, bit 1 - Link aggregation
• Octet 5, bit 2 - Port dual mode
• Octet 5, bit 3 - Private vlan
• Octet 5, bit 4 - MBGP
• Octet 5, bit 5 - IPV6 protocol vlan
• Octet 5, bit 6 - X10G
• Octet 5, bit 7 - FastIron Edge switch/router
• Octet 6, bit 0 - FDP
• Octet 6, bit 1 – port tag
Bit 0 is the least significant bit of an octet; bit 7 is the most significant bit.
Additional bits are added for new features. Check the MIB file for the software version you are running.
snAgBuildDate
fdry.1.1.2.1.47
Syntax: Display string
Read only Shows the date when the software was built. It can display up to 32 characters.
snAgBuildtime
fdry.1.1.2.1.48
Syntax: Display string
Read only Shows the time when the software was built. It can display up to 32 characters.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 6-11
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Boot Sequence TableThis table shows a list of software image loads. The images are in the sequence that will be used at boot up. When the devices is booted, the first image in the table will be loaded into the device. If that software image fails, the second image will be tried. The process continues until a successful load is completed.
This table is available in all Foundry devices. The combination of all the objects in this table must be unique. Duplicate instructions are rejected.
NOTE: Make sure that each entry is unique. It is possible to create entries with the same instructions by creating a new sequence index. Duplicate instructions may cause loops.
snAgBuildVer
fdry.1.1.2.1.49
Syntax: Display string
Read only Shows the version of the software in the format:
major.minor.maintenance[letters]
It can display up to 32 characters.
Name, OID, and Syntax Access Description
snAgBootSeqTable
fdry.1.1.2.4.1
None Identifies the boot sequence table
snAgBootSeqEntry
fdry.1.1.2.4.1.1
None A row in the boot sequence table.
snAgBootSeqIndex
fdry.1.1.2.4.1.1.1
Syntax: Integer
Read only The index to the boot sequence table.
snAgBootSeqInstruction
fdry.1.1.2.4.1.1.2
Syntax: Integer
Read-write Shows the image from which the device will boot.
• fromPrimaryFlash(1)
• fromSecondaryFlash(2)
• fromTftpServer(3)
• fromBootpServer(4).
snAgBootSeqIpAddr
fdry.1.1.2.4.1.1.3
Syntax: IpAddress
Read-write If the object “snAgBootSeqInstruction” is set to “fromTftpServer”, this object shows the IP address of the TFTP server that contains the image that will be used in the boot.
snAgBootSeqFilename
fdry.1.1.2.4.1.1.4
Syntax: Display string
Read-write Shows the name of the image filename on the TFTP server that will be used in the boot. This object applies only if the object “snAgBootSeqInstruction” is set to “fromTftpServer”. This object can have up to 32 characters.
Name, OID, and Syntax Access Description
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Basic Configuration and Management
Software ConfigurationThe following sections control common configurations for devices:
• “Switch IP Configurations” on page 6-13
• “Agent System Parameters Configuration Table” on page 6-13
• “Switch Group Configuration” on page 6-15
• “Switch Configuration Summary Group” on page 6-20
• “DNS Group (IPv4)” on page 6-20
• “DHCP Gateway List Table” on page 6-22
• “NTP General Group” on page 6-24
• “NTP Server Table (IPv4)” on page 6-26
• “Banners” on page 6-28
• “Encoded Octet Strings Table” on page 6-28
• “Agent’s Global Group” on page 6-29
Switch IP Configurations
Agent System Parameters Configuration TableThe Agent System Parameters Configuration Table presents the definition of the configuration system parameters. For example, the table may show the maximum number of VLANs a network can have.
The table is available in the following chassis devices:
snAgBootSeqRowStatus
fdry.1.1.2.4.1.1.5
Syntax: Integer
Read-write Creates or deletes an entry in the Boot Sequence Table:
• other(1)
• valid(2)
• delete(3)
• create(4)
Name, OID, and Syntax Access Description
snAgGblIfIpAddr
fdry.1.1.2.1.13
Syntax: Integer
Read-write Shows the IP address of the interface.
snAgGblIfIpMask
fdry.1.1.2.1.14
Syntax: Integer
Read-write Shows the IP address mask of the interface.
snAgDefGwayIp
fdry.1.1.2.1.10
Syntax: Integer
Read-write Shows the IP address of the default gateway router.
Name, OID, and Syntax Access Description
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• BigIron
• ServerIron 400
• ServerIron 800
Name, OID, and Syntax Access Description
snAgentSysParaConfigTable
fdry.1.1.2.7.1
None A table of Agent of each board.
snAgentSysParaConfigEntry
fdry.1.1.2.7.1.1
None A row in the Agent System Parameters Configuration table.
snAgentSysParaConfigIndex
fdry.1.1.2.7.1.1.1
Syntax: Integer
Read only The index to the Agent System Parameters Configuration Table.
snAgentSysParaConfigDescription
fdry.1.1.2.7.1.1.2
Syntax: Display string
Read only The parameter description string. This object can have up to 32 characters.
snAgentSysParaConfigMin
fdry.1.1.2.7.1.1.3
Syntax: Integer
Read only The minimum value of this Agent System Parameter.
snAgentSysParaConfigMax
fdry.1.1.2.7.1.1.4
Syntax: Integer
Read only The maximum value of this Agent System Parameter.
snAgentSysParaConfigDefault
fdry.1.1.2.7.1.1.5
Syntax: Integer
Read only The default value of this Agent System Parameter.
snAgentSysParaConfigCurrent
fdry.1.1.2.7.1.1.6
Syntax: Integer
Read-write The current configured value of this Agent System Parameter.
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Switch Group ConfigurationThe objects in this group are available in BigIron and in ServerIron devices. Refer to the chapter “Traps and Objects to Enable Traps” on page 30-1 for switch group trap objects.
Name, OID, and Syntax Access Description
snSwGroupOperMode
fdry.1.1.3.1.1
Syntax: Integer
Read-write
Indicates if switch ports have VLANs defined:
• noVLan(1) – All switch ports with no port VLANs and no tag assigned.
• vlanByPort(2) – All switch ports with basic port-based VLANs.
snSwGroupIpL3SwMode
fdry.1.1.3.1.2
Syntax: Integer
Read-write
Indicates if the Layer 3 IP switch is enabled for the switch group.
• disabled(0)
• enabled(1)
snSwGroupIpMcastMode
fdry.1.1.3.1.3
Syntax: Integer
Read-write
Indicates if the IP multicast pruning mode is enabled for the switch group.
• disabled(0)
• enabled(1)
snSwGroupDefaultCfgMode
fdry.1.1.3.1.4
Syntax: Integer
Read-write
Indicates if the switch group contains a default configuration. If the default configuration is overwritten, the state will change to non-default.
• default(1) – Has a default configuration
• nonDefault(2) – Has a non-default configuration
snSwGroupSwitchAgeTime
fdry.1.1.3.1.5
Syntax: Integer
Read-write
Sets the aging period for ports on the device, defining how long a port address remains active in the address table.
Valid values: 0 = no aging, or 67 – 65535 seconds
Default: 300 seconds
snVLanGroupVlanCurEntry
fdry.1.1.3.1.6
Syntax: Integer
Read only Shows the number of VLANs that are currently configured.
snVLanGroupSetAllVLan
fdry.1.1.3.1.7
Syntax: Integer
Read-write
Shows the VLanIndex of a particular entry in snVLanByPortTable (snVLanByPortVLanIndex). All the attributes of the row except for PortMask will be used to set the same attributes for the entire VLAN group. VLanId and PortMask must be set for the particular entry prior to setting this object. Switch software will be based on this VLAN information to set the entire VLAN.
NOTE: All the intended attributes of the given row of the table (given VLAN) must be set prior setting this object. When this object is set, Set-All-VLAN action takes place simultaneously. The previous setting is overwritten by the new one.
April 2008 © 2008 Foundry Networks, Inc. 6-15
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snSwPortSetAll
fdry.1.1.3.1.8
Syntax: Integer
Read-write
The value of this object is the index number of the snSwPortInfoTable (snSwPortInfoPortIndex). snSwPortInfoMonitorMode, snSwPortInfoTagType, snSwPortInfoChnMode, snSwPortInfoSpeed, snSwPortInfoAdminStatus are all the read-write attributes of that row of table. They will be used to set the same attributes for all the ports in the system.
NOTE: Before setting this object, all the intended attributes of the given row of the table must be set. Otherwise, the current data of the row will be used to set the entire port-table. The previous setting will be overwritten by the new one.
snFdbTableCurEntry
fdry.1.1.3.1.9
Syntax: Integer
Read only Shows the total number of entries in the Filtering Databse (FDB) that are configured currently.
snFdbTableStationFlush
fdry.1.1.3.1.10
Syntax: Integer
Read-write
Shows the state of the flush operation for the FDB table.
The following value can be written:
• flush(3) – Perform the flush operation. Once the flush operation starts, any new flush requests will be rejected until the operation is complete or failed.
The following values can only be read:
• normal(1) – Normal state
• error(2) – Operation failed
• flushing(4) – Operation is in process
snPortStpSetAll
fdry.1.1.3.1.11
Syntax: Integer
Read-write
The value of this object is 1, which means that Port STP Set-all command is invoked. The snPortStpPriority and, snPortStpPathCost, which are the read-write STP related attributes of the first row of table, will be used to set the same attributes for all the ports in the system.
NOTE: Before setting this object, all the intended attributes of the given row of the table must be set. Otherwise, the current data of the row will be used to set the entire port-table. The previous setting will be overwritten by the new one.
snSwProbePortNum
fdry.1.1.3.1.12
Syntax: Integer
Read-write
Indicates which chassis port is assigned as the chassis switch probe port. That port operates as a traffic analyzer port. Only one port in the chassis or stackable switch can be assigned as the traffic analyzer port. The value of this object represents the following:
• Bit 0 to bit 7 – Port number
• Bit 8 to bit 11 – Slot number
Name, OID, and Syntax Access Description
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snSw8021qTagMode
fdry.1.1.3.1.13
Syntax: Integer
Read-write
Indicates whether or not IEEE802.1q has been enabled for the switch group.
• disabled(0)
• enabled(1)
Default: disabled(0)
snSwGlobalStpMode
fdry.1.1.3.1.14
Syntax: Integer
Read-write
Indicates whether or not Spanning Tree System Global Mode has been enabled for the switch group.
• disabled(0)
• enabled(1)
snSwIpMcastQuerierMode
fdry.1.1.3.1.15
Syntax: Integer
Read-write
The IP Multicast pruning mode is configured either Non-Querier or Querier mode
• querier(1) – Send out host queries. (active)
• nonQuerier(2) – Do not send out host queries.(passive)
Default: querier(1)
snSwViolatorPortNumber
fdry.1.1.3.1.17
Syntax: Integer
Read only Indicates the port number of the switch or router that receives the violator packet. This number is included in the locked address violation trap. The value of this object contains the following:
• Bit 0 to bit 7 – Port number
• Bit 8 to bit 11 – Slot number (for chassis devices only)
snSwViolatorMacAddress
fdry.1.1.3.1.18
Syntax: MAC address
Read only Indicates the source MAC address of the violator packet received by the switch or router. This number is included in the locked address violation trap.
snVLanGroupVlanMaxEntry
fdry.1.1.3.1.19
Syntax: Integer
Read-write
Shows the maximum number of VLAN entries that can be configured.
snSwEosBufferSize
fdry.1.1.3.1.20
Syntax: Integer
Read only Specifies buffer size for all the different EOS buffers.
snVLanByPortEntrySize
fdry.1.1.3.1.21
Syntax: Integer
Read only Specifies the size of each VLAN table entry.
snSwPortEntrySize
fdry.1.1.3.1.22
Syntax: Integer
Read only Specifies the size of each port table entry.
Name, OID, and Syntax Access Description
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snFdbStationEntrySize
fdry.1.1.3.1.23
Syntax: Integer
Read only Specifies the size of each FDB station table entry.
snPortStpEntrySize
fdry.1.1.3.1.24
Syntax: Integer
Read only Specifies the size of each port STP table entry.
snSwIpxL3SwMode
fdry.1.1.3.1.28
Syntax: Integer
Read-write
Indicates whether or not Layer 3 IPX Switch mode is enabled.
• disabled(0)
• enabled(1)
Default: disabled(0)
snVLanByIpSubnetMaxSubnets
fdry.1.1.3.1.29
Syntax: Integer
Read only Applies only to ServerIron products.
Shows the maximum number of subnets for each IP VLAN.
snVLanByIpxNetMaxNetworks
fdry.1.1.3.1.30
Syntax: Integer
Read only Applies only to ServerIron products.
Shows the maximum number of networks for each IPX VLAN.
snSwProtocolVLanMode
fdry.1.1.3.1.31
Syntax: Integer
Read-write
Indicates whether or not protocol VLAN is enabled.
• disabled(0)
• enabled(1)
snMacStationVLanId
fdry.1.1.3.1.32
Syntax: Integer
Read-write
Shows the MAC Station’s VLAN ID index in the standard Forwarding Database for Transparent Bridge Table. (dot1dTpFdbTable). Since the dot1dTpFdbTable index is the MAC Address assigned to one of the ports in the bridge (VLAN) and each MAC address can be re-assigned to different ports belonging to different bridges (VLANs), the snMacStationVLanId can be used to specify which bridge (VLAN) MAC Station information of the dot1dTpFdbTable to retrieve. If you do not specify the VLAN ID in this MIB, the default VLAN (bridge) ID will be used when dot1dTpFdbTable is retrieved.
Valid values: 1 – 4095
snSwClearCounters
fdry.1.1.3.1.33
Syntax: Integer
Read-write
Clears software counters:
• valid(0) – an SNMP-GET of this MIB shows that it is valid command to use.
• clear(1) – Clear counter command of the following counters: Dot3, MIB2, IP and IPX counters for all ports.
snSw8021qTagType
fdry.1.1.3.1.34
Syntax: Integer
Read-write
Specifies the IEEE802.1q tag type that is embedded in the length/type field of an Ethernet packet. It specifies that the two octets after the length/type field in an Ethernet packet are the tag value.
Default: 33024
Name, OID, and Syntax Access Description
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The following objects apply only to all Foundry devices, except ServerIron products.
snSwBroadcastLimit
fdry.1.1.3.1.35
Syntax: Integer
Read-write
Specifies the number of broadcast packets per second. This limits the number of broadcast packets to forward out of the switch ports. Setting this object to 0 disables the limitation check.
Default: 0
snSwMaxMacFilterPerSystem
fdry.1.1.3.1.36
Syntax: Integer
Read only Specifies the maximum number of MAC Filters per system in the MAC Filter table.
snSwMaxMacFilterPerPort
fdry.1.1.3.1.37
Syntax: Integer
Read only Specifies the maximum number of MAC Filters per port in the Port MAC Access Filter table.
snSwDefaultVLanId
fdry.1.1.3.1.38
Syntax: Integer
Read-write
Shows the VLAN ID of the default port VLAN.
Valid values: 1 – 4095
snSwGlobalAutoNegotiate
fdry.1.1.3.1.39
Syntax: Integer
Read-write
Applies only to Gigabit Ethernet ports.
Specifies the negotiation mode of the port:
• disable(0) – All Gigabit Ethernet ports are in non- negotiation mode.
• enable(1) – All Gigabit Ethernet ports will start auto-negotiation indefinitely until they succeed.
• negFullAuto(2) – All Gigabit Ethernet ports will start with auto-negotiation. If the negotiation fails, then they will automatically switch to non-negotiation mode. Gigabit Ethernet ports on all stackable products except for TurboIron/8 do not support negFullAuto(2).
• other(3)
Default: negFullAuto(2)
snSwQosMechanism
fdry.1.1.3.1.40
Syntax: Integer
Read-write
Specifies the quality of service (QoS) mechanism:
• strict(0)
• weighted(1)
Default: weighted(1)
snSwSingleStpMode
fdry.1.1.3.1.41
Syntax: Integer
Read-write
Specifies if the Single Spanning Tree System Mode in the Switch Group is enabled.
• disabled(0)
• enabled(1)
Default: disabled(0)
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 6-19
Foundry Management Information Base Reference
Switch Configuration Summary GroupThe following object applies to all Foundry devices.
DNS Group (IPv4)
NOTE: FastIron IPv6 devices running software release FSX 04.1.00 or later use the “DNS Address Table (FastIron X Series IPv6 Devices)” on page 6-20 and “Domain Name Server Table (FastIron X Series IPv6 Devices)” on page 6-21.
The Domain Name Server (DNS) resolver feature lets you use a host name to perform Telnet, ping, and traceroute commands. You can also define a DNS domain on a Foundry Layer 2 Switch or Layer 3 Switch and thereby recognize all hosts within that domain. For more information on DNS in Foundry devices, refer to the Configuration Guide for the device.
The following objects provide information on DNS. They apply to all Foundry IPv4 devices.
DNS Address Table (FastIron X Series IPv6 Devices)The Domain Name Server (DNS) address table lists the IPv4 and IPv6 DNS addresses. These objects apply to FastIron IPv6 devices running software release FSX 04.1.00 or later.
snSwFastStpMode
fdry.1.1.3.1.42
Syntax: Integer
Read-write
Indicates if Fast Spanning Tree System Mode in the Switch Group is enabled.
• disabled(0)
• enabled(1)
snSwViolatorIfIndex
fdry.1.1.3.1.43
Syntax: Integer
Read only The port number of the device that received a violator packet. This number is included in the locked address violator trap.
Name, OID, and Syntax Access Description
snSwSummaryMode
fdry.1.1.3.7.1
Syntax: Integer
Read-write
Indicates whether or not the Switch Configuration Summary is enabled.
• disabled(0)
• enabled(1)
Default: disabled(0)
Name, OID, and Syntax Access Description
snDnsDomainName
fdry.1.1.3.9.1
Syntax: Display string
Read-write
Shows the DNS Domain Name. This object can have up to 80 characters.
snDnsGatewayIpAddrList
fdry.1.1.3.9.2
Syntax: Octet string
Read-write
Shows the DNS Gateway IP addresses. This list contains up to four IP addresses, represented by octet strings. This object has 16 octets.
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Basic Configuration and Management
NOTE: Releases prior to FSX 04.1.00 use the snDnsGatewayIpAddrList in the table “DNS Group (IPv4)” on page 6-20.
Domain Name Server Table (FastIron X Series IPv6 Devices)The Domain Name Server (DNS) name table lists the IPv4 and IPv6 DNS service names for FastIron IPv6 devices running software release FSX 04.1.00 or later.
NOTE: Releases prior to FSX 04.1.00 use the “DNS Group (IPv4)” on page 6-20.
Name, OID, and Syntax Access Description
fdryDnsServerAddressTable
fdry.1.1.3.30.1.2.1
Syntax: FdryDnsServerAddressEntry
None The DNS address list table that lists the IPv4 and IPv6 DNS addresses.
fdryDnsServerAddressEntry
fdry.1.1.3.30.1.2.1.1
Syntax: FdryDnsServerAddressEntry
None An entry in the DNS address table. This table uses a running index as the index to the table.
fdryDnsServerAddressIndex
fdry.1.1.3.30.1.2.1.1.1
Syntax: Unsigned32
None The index to the DNS address table. Up to four DNS IP addresses are supported for each IPv4 and IPv6 protocol.
fdryDnsServerAddressAddrType
fdry.1.1.3.30.1.2.1.1.2
Syntax: InetAddressType
Read-create
The DNS IP address type:
• ipv4(1)
• ipv6(2)
Default: IPv4
fdryDnsServerAddressAddr
fdry.1.1.3.30.1.2.1.1.3
Syntax: InetAddress
Read-create
The DNS IP address.
fdryDnsServerAddressRowStatus
fdry.1.1.3.30.1.2.1.1.4
Syntax: RowStatus
Read-create
This variable is used to create, modify, or delete a row in this table. When a row in this table is in active(1) state, no objects in that row can be modified except for this object.
Name, OID, and Syntax Access Description
fdryDnsDomainNameTable
fdry.1.1.3.30.1.1.1
Syntax: Sequence of FdryDnsDomainNameEntry
None The Domain Name Service name table.
April 2008 © 2008 Foundry Networks, Inc. 6-21
Foundry Management Information Base Reference
DHCP Gateway List TableThe following objects provide information on DHCP gateways.
fdryDnsDomainNameEntry
fdry.1.1.3.30.1.1.1.1
Syntax: FdryDnsDomainNameEntry
None An entry in the DNS name table. This table uses a running index as the index to the table.
fdryDnsDomainNameIndex
fdry.1.1.3.30.1.1.1.1.1
Syntax: Unsigned32
None The index to the DNS name table.
fdryDnsServerAddressAddrType
fdry.1.1.3.30.1.2.1.1.2
Syntax: InetAddressType
Read-create
The DNS IP address type: md
• ipv4(1)
• ipv6(2)
Default: IPv4
fdryDnsDomainNameName
fdry.1.1.3.30.1.1.1.1.3
Syntax: Display string (size(0..64))
Read-create
The DNS Domain Name string.
fdryDnsDomainNameRowStatus
fdry.1.1.3.30.1.1.1.1.4
Syntax: RowStatus
Read-create
This variable is used to create, modify, or delete a row in this table. When a row in this table is in active(1) state, no objects in that row can be modified except for this object.
Name, OID, and Syntax Access Description
snDhcpGatewayListTable
fdry.1.1.3.8.1
None A table of DHCP gateway addresses.
snDhcpGatewayListEntry
fdry.1.1.3.8.1.1
None An entry in the IP Port Address table.
snDhcpGatewayListId
fdry.1.1.3.8.1.1.1
Syntax: Integer
Read only Shows the ID for a DHCP gateway.
Valid values: 1 – 32.
snDhcpGatewayListAddrList
fdry.1.1.3.8.1.1.2
Syntax: Octet string
Read-write
Lists the DHCP gateway addresses in each DHCP gateway list. This list contains 1 to 8 IP addresses represented by octet strings. This object can have 4 to 32 octets.
Name, OID, and Syntax Access Description
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snDhcpGatewayListRowStatus
fdry.1.1.3.8.1.1.3
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 6-23
Foundry Management Information Base Reference
NTP General GroupYou can configure Layer 2 and Layer 3 Switches to consult Simple Network Time Protocol (SNTP) servers for the current system time and date. Since Foundry Layer 2 and Layer 3 switches do not retain time and date information across power cycles, using the SNTP feature alleviates the need to reconfigure time and date after a system reset.
The following objects provide information on the network time processor (NTP) server. These objects apply to all Foundry devices.
Name, OID, and Syntax Access Description
snNTPGeneral
fdry.1.1.3.11.1
None Begins the NTP configuration objects.
snNTPPollInterval
fdry.1.1.3.11.1.1
Syntax: Integer
Read-write
Specifies how often to poll the NTP server. Each unit is one second.
Valid values: 1 – 65535
Default: 1800 seconds
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snNTPTimeZone
fdry.1.1.3.11.1.2
Syntax: Integer
Read-write
Time zone:
• alaska(0)
• aleutian(1)
• arizona(2)
• central(3)
• eastIndiana(4)
• eastern(5)
• hawaii(6)
• michigan(7)
• mountain(8)
• pacific(9)
• samoa(10)
• gmtPlus12(11)
• gmtPlus11(12)
• gmtPlus10(13)
• gmtPlus9(14)
• gmtPlus8(15)
• gmtPlus7(16)
• gmtPlus6(17)
• gmtPlus5(18)
• gmtPlus4(19)
• gmtPlus3(20)
• gmtPlus2(21)
• gmtPlus1(22)
• gmt(23) – The default
• gmtMinus1(24)
• gmtMinus2(25)
• gmtMinus3(26)
• gmtMinus4(27)
• gmtMinus5(28)
• gmtMinus6(29)
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 6-25
Foundry Management Information Base Reference
NTP Server Table (IPv4)The following objects apply to all Foundry IPv4 devices. They provide information on the NTP server.
NOTE: For FastIron X Series devices running IPv6 (software releases FSX 04.1.00 and later), see “SNTP Server Table (FastIron X Series IPv6 Devices)” on page 6-27.
snNTPTimeZone (Continued) • gmtMinus7(30)
• gmtMinus8(31)
• gmtMinus9(32)
• gmtMinus10(33)
• gmtMinus11(34)
• gmtMinus12(35)}
snNTPSummerTimeEnable
fdry.1.1.3.11.1.3
Syntax: Integer
Read-write
Indicates if daylight saving time is enabled:
• disabled(0)
• enabled(1) – Enables daylight saving time starting at 02:00:00 on the first Sunday in April and ending at 02:00:00 in last Sunday in October.
Default: disabled(0)
snNTPSystemClock
fdry.1.1.3.11.1.4
Syntax: Octet string
Read-write
Shows the format of the system clock:
• octet 0 – Seconds after the minute [0-60]
• octet 1 – Minutes after the hour [0-59]
• octet 2 – Hours since midnight [0-23]
• octet 3 – Day of the month [1-31]
• octet 4 – Months since January [0-11]
• octet 5 – Years since 1900
• octet 6 – Days since Sunday [0-6]
Octets 0 to 5 must have valid values and Octet 6 must be set to 0. To disable the system clock set all octets to zero.
snNTPSync
fdry.1.1.3.11.1.5
Syntax: Integer
Read-write
Initiates the time synchronization to the NTP servers.
For set operation, only "synchronize(2)" is accepted.
For get operation, always return "other(1)".
Name, OID, and Syntax Access Description
snNTPServerTable
fdry.1.1.3.11.2
None NTP (Network Time Protocol) server table.
snNTPServerEntry
fdry.1.1.3.11.2.1
None An entry in the NTP server table.
Name, OID, and Syntax Access Description
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SNTP Server Table (FastIron X Series IPv6 Devices)The following objects apply to FastIron X Series IPv6 devices running software release FSX 04.1.00 or later. These objects provide information on the SNTP server.
NOTE: Releases prior to FSX 04.1.00 use the “NTP Server Table (IPv4)” on page 6-26.
snNTPServerIp
fdry.1.1.3.11.2.1.1
Syntax: IpAddress
Read only Shows the IP address of the NTP server.
snNTPServerVersion
fdry.1.1.3.11.2.1.2
Syntax: Integer
Read-write
Shows the version in the NTP server.
Default: 1
snNTPServerRowStatus
fdry.1.1.3.11.2.1.3
Syntax: Integer
Read-write
Creates or deletes an NTP server table entry:
• other(1)
• valid(2)
• delete(3)
• create(4)
Name, OID, and Syntax Access Description
fdrySntpServerTable
fdry.1.1.7.1.1.1
None SNTP (Simple Network Time Protocol) server table.
fdrySntpServerEntry
fdry.1.1.7.1.1.1.1
None An entry in the SNTP server table.
fdrySntpServerIndex
fdry.1.1.7.1.1.1.1.1
Syntax: Unsigned32
None The index to the SNTP server table. A maximum of three SNTP servers are supported.
fdrySntpServerAddrType
fdry.1.1.7.1.1.1.1.2
Syntax: InetAddressType
Read-create
The SNTP server IP address type:
• ipv4(1)
• ipv6(2)
• Default: IPv4
fdrySntpServerAddr
fdry.1.1.7.1.1.1.1.3
Syntax: InetAddress
Read-create
The SNTP server IP address.
fdrySntpServerVersion
fdry.1.1.7.1.1.1.1.4
Syntax: Integer32
Read-create
The SNTP server version.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 6-27
Foundry Management Information Base Reference
BannersBanners are messages that are displayed when a user logs into the device.
Encoded Octet Strings TableEach row in the Encoded Octet Strings (EOS) Table represents a fragmented configuration file data packet, including its checksum. An SNMP SET represents a configuration file download process, while an SNMP GET represents a configuration file upload.
This action occurs only if the SNMP-SET of snAgCfgLoad command is sent along with this table consecutively. Consecutive SETs are performed until the network management system has no more packets to send. Likewise, consecutive GETs are done until the agent has no more packets to send.
The applicable snAgCfgLoad command value is as follows: uploadFromFlashToNMS(23),downloadToFlashFromNMS(24),uploadFromDramToNMS(25),downloadToDramFromNMS(26)
fdrySntpServerRowStatus
fdry.1.1.7.1.1.1.1.5
Syntax: RowStatus
Read-create
This variable is used to create, modify, or delete a row in this table. When a row in this table is in active(1) state, no objects in that row can be modified except this object.
Name, OID, and Syntax Access Description
snAgGblBannerExec
fdry.1.1.2.1.61
Syntax: Display string
Read-write Enter a message that will be displayed when a user enters the Privileged EXEC CLI level of a device.
Enter up to 2048 characters for this banner. Use the character "\n" within the string to start a new line.
Leave this object blank if no message is to be displayed.
snAgGblBannerIncoming
fdry.1.1.2.1.62
Syntax: Display string
Read-write Enter a message that will be displayed on the console when a user establishes a Telnet session. This message includes the location where the user is connecting from and displays a text message that can be configured.
Enter up to 2048 characters for this banner. Use the character "\n" within the string to start a new line.
Leave this object blank if no message is to be displayed.
snAgGblBannerMotd
fdry.1.1.2.1.63
Syntax: Display string
Read-write Enter the message of the day that will be displayed on a user’s terminal when he or she establishes a Telnet CLI session.
Enter up to 2048 characters for this banner. Use the character "\n" within the string to start a new line.
Leave this object blank if no message is to be displayed.
Name, OID, and Syntax Access Description
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The table is supported in all Foundry products.
Agent’s Global Group
Error ManagementThe following objects are for general resource management in a device. They are available in all Foundry devices.
Name, OID, and Syntax Access Description
snAgCfgEosTable
fdry.1.1.2.5.1
None The EOS table
snAgCfgEosEntry
fdry.1.1.2.5.1.1
None An EOS row in the table of encoded octet strings for table snAgCfgEosTable.
snAgCfgEosIndex
fdry.1.1.2.5.1.1.1
Syntax: Integer
Read only Each VLAN EOS Buffer Identifier has multiple VLAN table entries.
snAgCfgEosPacket
fdry.1.1.2.5.1.1.2
Syntax: Octet string
Read-write An encoded octet string. On reads it contains an integral number of configuration file data packets. The size of each encoded octet string is less than or equal to 1400 bytes. This object can contain up to 1000 octets.
snAgCfgEosChkSum
fdry.1.1.2.5.1.1.3
Syntax: Integer
Read-write A checksum of each configuration file data packet.
Name, OID, and Syntax Access Description
snAgGblDataRetrieveMode
fdry.1.1.2.1.19
Syntax: Integer
Read-write Retrieves the VLAN Table and Port-STP Table data as indicated by the selected mode. The mode can be one of the following:
• nextbootCfg(0) – Retrieve the next boot configuration data
• operationalData(1) – Retrieve the current running data
Default: nextbootCfg(0).
Name, OID, and Syntax Access Description
snAgGblQueueOverflow
fdry.1.1.2.1.30
Syntax: Integer
Read only The device queues are overflowing:
• No(0)
• Yes(1)
April 2008 © 2008 Foundry Networks, Inc. 6-29
Foundry Management Information Base Reference
FDP and CDP This section presents the MIB objects and tables that can be used to manage FDP/CDP using SNMP.
• “FDP/CDP Global Configuration Objects” on page 6-30
• “FDP Interface Table” on page 6-31
• “FDP Cache Table” on page 6-31
• “FDP Cached Address Entry Table” on page 6-33
FDP/CDP Global Configuration ObjectsThe following objects are used to configure FDP globally.
In FES devices, these objects supported in release 03.1.02 and later.
snAgGblBufferShortage
fdry.1.1.2.1.31
Syntax: Integer
Read only There is a shortage in the device buffers:
• No(0)
• Yes(1)
snAgGblDmaFailure
fdry.1.1.2.1.32
Syntax: Integer
Read only The device DMAs are in good condition:
• No(0)
• Yes(1)
snAgGblResourceLowWarning
fdry.1.1.2.1.33
Syntax: Integer
Read only The device has low resources available:
• No(0)
• Yes(1)
snAgGblExcessiveErrorWarning
fdry.1.1.2.1.34
Syntax: Integer
Read only The device has excessive collision, FCS errors, alignment warnings, and other excessive warnings:
• No(0)
• Yes(1)
Name, OID, and Syntax Access Description
snFdpGlobalRun
fdry.1.1.3.20.1.3.1
Syntax: Integer
Read-write
Indicates if the Foundry Discovery Protocol (FDP) is enabled:
• false(0) – FDP is disabled. FDP entries in the snFdpCacheTable are deleted when FDP is disabled.
• true(1) – FDP is enabled. Enabling FDP automatically enables CDP globally.
Default: false(0)
snFdpGlobalMessageInterval
fdry.1.1.3.20.1.3.2
Syntax: Integer
Read-write
Indicates the interval at which FDP messages are to be generated.
Valid values: 5 – 900 seconds
Default: 60 seconds
Name, OID, and Syntax Access Description
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FDP Interface TableThe FDP Interface Table shows whether or not FDP is enabled on a physical interface. You can use this table to disable or enable FDP on individual interfaces.
NOTE: You cannot disable CDP on individual interfaces. Also, in FES devices, this table is supported in release 03.1.02 and later.
FDP Cache TableEach entry in the FDP Cache Table contains information received from FDP/CDP on one interface of one device. This table is available if FDP or CDP is enabled globally. Entries appear when an FDP/CDP advertisement is received from a neighbor device. Entries are deleted when FDP/CDP is disabled on an interface or globally.
snFdpGlobalHoldTime
fdry.1.1.3.20.1.3.3
Syntax: Integer
Read-write
Indicates how long the receiving device will hold FDP messages.
Valid values: 10 – 255 seconds
Default: 180 seconds
snFdpGlobalCdpRun
fdry.1.1.3.20.1.3.4
Syntax: Integer
Read-write
Shows if the Cisco Discovery Protocol(CDP) is enabled:
• false(0) – CDP is disabled. CDP entries in the snFdpCacheTable are deleted when FDP is disabled.
• true(1) – CDP is enabled. Enabling CDP does not automatically enable FDP globally.
Default: false (0)
Name, OID, and Syntax Access Description
snFdpInterfaceTable
fdry.1.1.3.20.1.1.1
None The FDP Interface table
snFdpInterfaceIfIndex
fdry.1.1.3.20.1.1.1.1.1
None An entry in the FDP Cache Table, showing the ifIndex value of the local interface.
snFdpInterfaceEnable
fdry.1.1.3.20.1.1.1.1.2
Syntax: Integer
Read-write
Determines if FDP is enabled on the interface:
• false(0) – FDP is disabled.
• true(1) – FDP is enabled.
Default: true(1)
snFdpInterfaceCdpEnable
fdry.1.1.3.20.1.1.1.1.3
Syntax: Integer
Read-write
Determines if CDP is enabled on the interface:
• false(0) – CDP is disabled.
• true(1) – CDP is enabled.
Default: true(1)
This object is available beginning with IronWare software release 07.6.02.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 6-31
Foundry Management Information Base Reference
In FES devices, this table is supported in release 03.1.02 and later.
Name, OID, and Syntax Access Description
snFdpCacheTable
fdry.1.1.3.20.1.2.1
None The FDP Cache Table
snFdpCacheEntry
fdry.1.1.3.20.1.2.1.1
None An entry in the FDP Cache Table.
snFdpCacheIfIndex
fdry.1.1.3.20.1.2.1.1.1
None An entry in the FDP Cache Table, showing the ifIndex value of the local interface.
snFdpCacheDeviceIndex
fdry.1.1.3.20.1.2.1.1.2
Syntax: Integer
Read only A unique value for each device from which FDP or CDP messages are being received. For example, you may see 1.
snFdpCacheDeviceId
fdry.1.1.3.20.1.2.1.1.3
Syntax: Display string
Read only Shows a description for the device as reported in the most recent FDP or CDP message. For example, you may see DeviceB.
A zero-length string indicates no Device-ID field (TLV) was reported in the most recent FDP or CDP message.
snFdpCacheAddressType
fdry.1.1.3.20.1.2.1.1.4
Syntax: Integer
Read only Indicates the type of address contained in the “snFdpCacheAddress” object for this entry:
• ip(1)
• ipx(2)
• appletalk(3)
snFdpCacheAddress
fdry.1.1.3.20.1.2.1.1.5
Syntax: Octet string
Read only Shows the network-layer address of the device's SNMP-agent, as reported in the most recent FDP or CDP message. A device may have more than one address. This object shows the first address on the device.
The format of this object depends on the value of the snFdpCacheAddressType object:
• ip(1) – 4 octets
• ipx(2) – 10 octets:
Octets 1 – 4: Network number
Octets 5 – 10: Host number
• appletalk(3) – 3 octets:
Octets 1 – 2: Network number
Octet 3: Host number
snFdpCacheVersion
fdry.1.1.3.20.1.2.1.1.6
Syntax: Display string
Read only Shows the software version running in the device as reported in the most recent FDP or CDP message. For example, you may see the following:
Foundry Networks, Inc. Router, IronWare Version 07.6.01b1T53 Compiled on Aug 28 2002 at 20:23:58 labeled as B2R07601
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FDP Cached Address Entry Table The FDP Cached Address Entry Table shows all the cached addresses from which FDP or CDP messages are being received. This table is available if FDP or CDP is enabled globally.
snFdpCacheDevicePort
fdry.1.1.3.20.1.2.1.1.7
Syntax: Display string
Read only Shows the port ID of the device as reported in the most recent FDP or CDP message. This will typically be the value of the ifName object. For example, you may see Ethe 2/3.
A zero-length string indicates no Port-ID field (TLV) was reported in the most recent FDP or CDP message.
snFdpCachePlatform
fdry.1.1.3.20.1.2.1.1.8
Syntax: Display string
Read only Shows the device's hardware platform as reported in the most recent FDP or CDP message. For example, you may see BigIron Router.
A zero-length string indicates that no Platform field (TLV) was reported in the most recent FDP or CDP message.
snFdpCacheCapabilities
fdry.1.1.3.20.1.2.1.1.9
Syntax: Display string
Read only Shows the device's functional capabilities as reported in the most recent FDP or CDP message. For example, you may see Router.
snFdpCacheVendorId
fdry.1.1.3.20.1.2.1.1.10
Syntax: Integer
Read only Indicates if FDP or CDP received the entry:
• fdp(1)
• cdp(2)
snFdpCacheIsAggregateVlan
fdry.1.1.3.20.1.2.1.1.11
Syntax: Integer
Read only Indicates if this entry is from a neighbor device that is in an aggregated VLAN:
• false(0) – It is not in an aggregated VLAN
• true(1) – It is in an aggregate VLAN
snFdpCacheDeviceTagType
fdry.1.1.3.20.1.2.1.1.12
Syntax: Integer
Read only Shows the tag type of the neighbor device that sent this entry. For example, you may see 0x8100.
snFdpCacheDevicePortVlanMask
fdry.1.1.3.20.1.2.1.1.13
Syntax: Octet string
Read only Shows the port VLAN masks, in 512-byte octet string, of the neighbor that sent this entry.
snFdpCachePortTagMode
fdry.1.1.3.20.1.2.1.1.14
Syntax: Integer
Read only Shows the port tag mode on the neighbor device:
• untagged(1)
• tagged(2)
• dual(3)
snFdpCacheDefaultTrafficeVlanIdForDualMode
fdry.1.1.3.20.1.2.1.1.15
Syntax: Integer
Read only Shows the default traffic vlan ID for neighbor devices that have dual-mode ports.
Name, OID, and Syntax Access Description
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Also, in FES devices, this table is supported in release 03.1.02 and later.
Name, OID, and Syntax Access Description
snFdpCachedAddressTable
fdry.1.1.3.20.1.4.1
None The FDP Cached Address Entry Table
snFdpCachedAddressEntry
fdry.1.1.3.20.1.4.1.1
None An entry in the FDP Cached Address Table.
snFdpCachedAddrIfIndex
fdry.1.1.3.20.1.4.1.1.1
Syntax: Integer
None Shows the ifIndex value of the local interface.
snFdpCachedAddrDeviceIndex
fdry.1.1.3.20.1.4.1.1.2
Syntax: Integer
Read only Shows a unique value for each device from which FDP or CDP messages are being received.
snFdpCachedAddrDeviceAddrEntryIndex
fdry.1.1.3.20.1.4.1.1.3
Syntax: Integer
Read only Shows a unique value for each address on the device from which FDP or CDP messages are being received. A device may have several addresses. There will be one entry for each address.
snFdpCachedAddrType
fdry.1.1.3.20.1.4.1.1.4
Syntax: Integer
Read only Indicates the type of address contained in the “snFdpCachedAddrValue” object for this entry:
• ip(1)
• ipx(2)
• appletalk(3)
snFdpCachedAddrValue
fdry.1.1.3.20.1.4.1.1.5
Syntax: Octet string
Read only Indicates the network-layer address of the device’s SNMP-agent as reported in the most recent FDP or CDP message.
The format of this object depends on the value of the snFdpCachedAddrValue object:
• ip(1) – 4 octets
• ipx(2) – 10 octets:
Octets 1 – 4: Network number
Octets 5 – 10: Host number
• appletalk(3) – 3 octets:
Octets 1 – 2: Network number
Octet 3: Host number
6-34 © 2008 Foundry Networks, Inc. April 2008
Chapter 7User Access
This chapter presents the objects used to control user access to devices. It contains the following sections:
• “Agent User Access Group” on page 7-1
• “Agent User Account Table” on page 7-2
• “General Security Objects” on page 7-3
• “IP Community List Table” on page 7-7
• “IP Community List String Table” on page 7-8
• “Authorization and Accounting” on page 7-9
• “RADIUS General Group” on page 7-11
• “RADIUS Server Table (IPv4)” on page 7-14
• “TACACS General Objects” on page 7-16
• “TACACS Server Table (FastIron X Series IPv6 Devices)” on page 7-19
• “Show Statistics DOS-Attack” on page 7-20
Refer to the Foundry Security Guide for detailed explanation on the features discussed in this chapter.
Agent User Access GroupThe objects in this section apply to user accounts in all Foundry devices.
Name, OID, and Syntax Access Description
snAgentUserMaxAccnt
fdry.1.1.2.9.1.1
Syntax: Integer
Read only Shows the maximum number of user accounts that can be configured on the device.
April 2008 © 2008 Foundry Networks, Inc. 7-1
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Agent User Account TableThe objects in this table provide information about user accounts. They apply to all Foundry devices.
snAgWebMgmtServerTcpPort
fdry.1.1.2.1.63
Syntax: Integer
Read-write This object allows you to specify which TCP port will be used for the Web management interface. Also, Element Manager of IronView Network Manager will query the device for this port number before it sends HTTP packets to the device.
Enter a number from 1 – 65535.
Name, OID, and Syntax Access Description
snAgentUserAccntTable
fdry.1.1.2.9.2
None A table of user account information.
snAgentUserAccntEntry
fdry.1.1.2.9.2.1
None Represents a row in the Agent User table.
snAgentUserAccntName
fdry.1.1.2.9.2.1.1
Syntax: Display string
Read only Displays the user name.
This object can have up to 48 characters
snAgentUserAccntPassword
fdry.1.1.2.9.2.1.2
Syntax: Display string
Read-write Contains the user password.
Valid values: Up to 48 characters
snAgentUserAccntEncryptCode
fdry.1.1.2.9.2.1.3
Syntax: Integer
Read-write States the password encryption method code.
• 0 – no encryption
• 1 – simple encryption
• 7– MD5 encryption
snAgentUserAccntPrivilege
fdry.1.1.2.9.2.1.4
Syntax: Integer
Read-write Shows the user’s privilege.
• 0 – administration
• 4 – Port configuration
• 5 – Read only
snAgentUserAccntRowStatus
fdry.1.1.2.9.2.1.5
Syntax: Integer
Read-write Creates, modifies, or deletes a user account table entry:
• other(1)
• valid(2)
• delete(3)
• create(4)
• modify(5)
Name, OID, and Syntax Access Description
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User Access
General Security ObjectsThe following objects are used to manage general security functions in all Foundry devices.
snAgGblPassword
fdry.1.1.2.1.15
Syntax: Display string
Read-write
Shows the system security access password, which is used only for an SNMP-Set. An SNMP-Get will return a zero string.
If the password-change any command (the default) is configured on the device, then this object needs to be part of the SNMP Set operation on some critical SNMP objects.
The value of this object depends on the authentication method for SNMP operation:
• If there is no AAA authentication configuration for SNMP, then this object will have the enable superuser password.
• If AAA authentication for SNMP is configured and has the leading method as “enable” or “line”, this object will have the corresponding “enable” or “line” password.
• If the switch has AAA authentication for SNMP operation, and the method specified is one of local, TACACS+, or RADIUS, this object will have <username> <password> format with one space character between <username> and <password>.
The maximum size allows concatenation of max 48 octets of username and 48 octets of password, with one blank character
Refer to “Configuration Notes” on page 7-6 for more details.
Valid values: Up 48 octets.
snAgGblSecurityLevelSet
fdry.1.1.2.1.28
Syntax: Integer
Read-write
Shows the security level required to set an “enable” password. This security level can be be from 0 to 5.
snAgGblPasswordChangeMode
fdry.1.1.2.1.24
Syntax: Integer
Read only Specifies which management entity is allowed to change the “enable” password for the device. For security reasons, this object can only be modified using the device’s CLI.
Valid values:
• anyMgmtEntity(1) – Any SNMP management station, console command line interface or Telnet command line interface can be used to change the password.
• consoleAndTelnet(2) – The password can be changed using the console command line interface or the Telnet command line interface
• consoleOnly(3) – Only the console command line interface can be used
• telnetOnly(4) – Only telnet command line interface can be used.
Default: consoleAndTelnet(2)
April 2008 © 2008 Foundry Networks, Inc. 7-3
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snAgGblLevelPasswordsMask
fdry.1.1.2.1.29
Syntax: Integer
Read only Shows the bitmap of level passwords which were successfully assigned to the system.
• Bit 0 – Level 0 = admin
• Bit 4 – Level 4 = port configuration
• Bit 5 – Level 5 = read only
snAgGblReadOnlyCommunity
fdry.1.1.2.1.25
Syntax: Display string
Read-write
Allows you to configure SNMP read-only community strings for the device. This object can be used in an SNMP-Set, but not SNMP-Get. Get will return a blank.
Valid values: Up to 32 characters.
NOTE: To use this object, make sure that "password-change any" has been configured in the device, to allow passwords to be updated from SNMP or any method
snAgGblReadWriteCommunity
fdry.1.1.2.1.26
Syntax: Display string
Read-write
Allows you to configure SNMP read-write community strings for the device. This object can be used in an SNMP-Set, but not SNMP-Get. Get will return a blank.
Valid values: Up to 32 characters.
NOTE: To use this object, make sure that "password-change any" has been configured in the device, to allow passwords to be updated from SNMP or any method.
snAgGblCurrentSecurityLevel
fdry.1.1.2.1.27
Syntax: Integer
Read only Represents the current login security level (0 to 5). Each level of security requires a password to permit users for different system configurations. Levels are defined in the “snAgGblLevelPasswordsMask” object.
7-4 © 2008 Foundry Networks, Inc. April 2008
User Access
snAgSystemLog
fdry.1.1.2.1.20
Syntax: Octet string
Read-write
Indicates whether any network management system has login privileges. The agent allows only one network management to be logged in.
The value of this object consists of an octet string, with the first byte representing the value described below. The following four bytes contain a secret code.
The value of the first byte can be one of the following:
• login(1) – Login for a network management system.
• heartbeat(2) – a value for the login NMS periodically to check in; Otherwise, the Agent will automatically set this object to logout(3) after a timeout period.
• logout(3) – a value for a NMS to logout.
• changePassword(4) – a value for the login NMS to change password, only if snAgGblPasswordChangeMode was configured to “anyMgmtEntity”.
• changeReadOnlyCommunity(5) – a value for the login NMS to change the read-only community string, only if snAgGblPasswordChangeMode was configured to “anyMgmtEntity”.
• changeReadWriteCommunity(6) – a value for the login NMS to change the read-write community string, only if snAgGblPasswordChangeMode was configured to “anyMgmtEntity”.
This object requires a password to be set for the snAgGblPassword object.
snAgGblTelnetTimeout
fdry.1.1.2.1.37
Syntax: Integer
Read-write
Shows how many minutes a Telnet session can remain idle before it times out. The value of this object can be up to 240 minutes. A value of 0 means that the Telnet session never times out.
snAgGblEnableWebMgmt
fdry.1.1.2.1.38
Syntax: Integer
Read-write
Enables or disables access to the device from the Web management interface:
• disable(0)
• enable(1)
snAgGblSecurityLevelBinding
fdry.1.1.2.1.39
Syntax: Integer
Read only After a network management system logs in to a device with a user ID and password, the privilege level assigned to that system is saved in this object. Privilege level can be one of the following:
• 0 – Administration
• 4 – Port configuration
• 5 – Read only
• 255 – Invalid binding
snAgGblEnableSLB
fdry.1.1.2.1.40
Syntax: Integer
Read only Enables or disables Server Load Balancing:
• disable(0)
• enable(1)
April 2008 © 2008 Foundry Networks, Inc. 7-5
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Configuration NotesWhen using the snAgGblPassword object in a Set operation, keep the following in mind:
The device will always insist on a password to be part of the object snAgGblPassword. You can override this requirement by entering a no snmp-server pw-check command on the device’s CLI.
By default, the object uses the value of the enable super-user password configured on the device as the default password. To allow a device to use other authentication schemes, use one of the following commands:
• aaa authen snmp default enable | local | none
Using enable tells the device to use the configured enable super-user password. If the enable super-user password is missing, then the device checks for the if implicit TACACS+ enable password. The device will store a previous (unrelated to SNMP) implicit enable operation result, and remember the enable password that was approved by TACACS+. You can enter the following command to use this method:
SnmpSet(snAgGblPassword.0="<enable-password>", snAgEraseNVRAM.0=3)
Using local instructs the device to use a configured local username and password value. You can enter the following SNMP command to use this method:
SnmpSet(snAgGblPassword.0="<username> <password>", snAgEraseNVRAM.0=3)
Using none tells the device to ignore the value of snAgGblPassword and authentication check will always pass. You can enter the following SNMP command to use this method:
SnmpSet(snAgGblPassword.0="<anything here>", snAgEraseNVRAM.0=3)
• aaa authentication login default TACACS+
• aaa authentication enable default TACACS+
• aaa authentication enable implicit-user
The snAgGblPassword object must be set for the following objects:
• snAgCfgLoad
• snAgImgLoad
• snAgConfigFromNVRAM
• snAgEraseNVRAM
• snAgWriteNVRAM
• snAgGblTelnetPassword
snAgGblEnableTelnetServer
fdry.1.1.2.1.45
Syntax: Integer
Read-write
Enables or disables the Telnet server in a device:
• Disable(0)
• Enable(1)
Default: enable(1)
snAgGblTelnetPassword
fdry.1.1.2.1.46
Syntax: Display string
Read-write
Contains the Telnet access password, which is only used with SNMP Set. An SNMP-Get produces a zero string. This object can have 48 characters.
This object requires a password to be set for the snAgGblPassword object.
snAgGblTelnetLoginTimeout
fdry.1.1.2.1.60
Syntax: Integer
Read-write
Indicates how many minutes you have to log in before Telnet is disconnected.
Valid values: 1 – 10 minutes.
Default: 1 minute
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User Access
• snAgReload
• snAgSystemLog
IP Community List TableThis table has been deprecated in IronWare software release 07.5.00 and is no longer supported. It has been replaced by the “IP Community List String Table” on page 7-8.
Name, OID, and Syntax Access Description
snIpCommunityListTable
fdry.1.2.2.13
None IP Community List Table.
snIpCommunityListEntry
fdry.1.2.2.13.1
None An entry in the IP Community List Table.
snIpCommunityListIndex
fdry.1.2.2.13.1.1
Syntax: Integer
Read only An index for an entry in the table.
snIpCommunityListSequence
fdry.1.2.2.13.1.2
Syntax: Integer
Read only Identifies the sequence of this entry in this table.
snIpCommunityListAction
fdry.1.2.2.13.1.3
Syntax: Integer
Read-write
Determines what action to take if the address in the packet matches this filter:
• deny(0)
• permit(1)
snIpCommunityListCommNum
fdry.1.2.2.13.1.4
Syntax: Octet string
Read-write
Specifies the community number. This is a number from 1 to 0xFFFFFFFF. There are 20 numbers. Each number is represented by four octets.
snIpCommunityListInternet
fdry.1.2.2.13.1.5
Syntax: Integer
Read-write
Indicates if the community is enabled:
• disabled(0)
• enabled(1)
snIpCommunityListNoAdvertise
fdry.1.2.2.13.1.6
Syntax: Integer
Read-write
Indicates if routes will not be advertised to any internal or external peer:
• false(0)
• true(1)
snIpCommunityListNoExport
fdry.1.2.2.13.1.7
Syntax: Integer
Read-write
Determines if the route will not be advertised to an EBGP peer:
• false(0)
• true(1)
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IP Community List String TableThis table contains the list of community strings used.
Beginning with IronWare software release 07.5.00, this table replaces the “IP Community List String Table” on page 7-8.
snIpCommunityListRowStatus
fdry.1.2.2.13.1.8
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snIpCommunityListLocalAs
fdry.1.2.2.13.1.9
Syntax: Integer
Read-write
Indicates if this route will be sent to peers (advertised) in other sub-autonomous systems within the local confederation:
• false(0) – Do not advertise this route to an external system.
• true(1) – Advertise this route.
Name, OID, and Syntax Access Description
snIpCommunityListStringTable
fdry.1.2.2.17
None IP Community ListString Table.
snIpCommunityListStringEntry
fdry.1.2.2.17.1
None An entry in the IP Community ListString Table.
snIpCommunityListStringName
fdry.1.2.2.17.1.1
Syntax: Octet string
Read only An index for an entry in the table.
This object can have up to 32 octets.
snIpCommunityListStringSequence
fdry.1.2.2.17.1.
Syntax: Integer
Read only Indicates the sequence of this entry in the table.
Name, OID, and Syntax Access Description
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User Access
Authorization and AccountingThe following objects are for authorization, and accounting functions.
snIpCommunityListStringAction
fdry.1.2.2.17.1.3
Syntax: Integer
Read-write
Indicates the action to take if the community string on the packet matches this filter:
• deny(0)
• permit(1)
snIpCommunityListStringCommNum
fdry.1.2.2.17.1.4
Syntax: Integer
Read-write
Shows the community string’s number, represented by four octets. This number can be from 1 to 0xFFFFFFFF.
There can be up to 20 community string numbers.
snIpCommunityListStringInternet
fdry.1.2.2.17.1.5
Syntax: Integer
Read-write
Indicates if the community is enabled:
• disabled(0)
• enabled(1)
snIpCommunityListStringNoAdvertise
fdry.1.2.2.17.1.6
Syntax: Integer
Read-write
Indicates the community string will not be advertised to any internal or external peers:
• false(0)
• true(1)
snIpCommunityListStringNoExport
fdry.1.2.2.17.1.7
Syntax: Integer
Read-write
Indicates if this route is not advertised as an EBGP peer:
• false(0)
• true(1)
snIpCommunityListStringRowStatus
fdry.1.2.2.17.1.8
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snIpCommunityListStringLocalAs
fdry.1.2.2.17.1.9
Read-write
Determines if this route will be sent to peers in other sub autonomous systems within the local confederation. Do not advertise this route to an external system.
Name, OID, and Syntax Access Description
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Name, OID, and Syntax Access Description
snAuthorizationCommand Methods
fdry.1.1.3.15.2.1
Syntax: Octet string
Read-write
Specifies the sequence of authorization methods.
This object can have zero to three octets. Each octet represents a method to authorize the user command. Each octet has the following value:
• radius(2) – Authorize by the requesting RADIUS server
• tacplus(5) – Authorize by requesting TACACS server
• none(6) – Skip authorization
Setting a zero length octet string invalidates all previous authorization methods.
snAuthorizationCommandLevel
fdry.1.1.3.15.2.2
Syntax: IpAddress
Read-write
Specifies the commands that need to be authorized. Any command that is equal to or less than the selected level will be authorized:
• level(0) – Privilege level 0
• level(4) – Privilege level 4
• level(5) – Privilege level 5
snAuthorizationExec
fdry.1.1.3.15.2.3
Syntax: Octet string
Read-write
Shows the sequence of authorization methods for exec programs.
This object can have zero to three octets. Each octet represents a method for Telnet or SSH login authorization. Each octet can have one of the following values:
• radius(2) – Send EXEC authorization request to RADIUS server
• tacplus(5) – Send EXEC authorization request to TACACS+ server
• none(6) – No EXEC authorization method
Setting a zero length octet string invalidates all authorization methods.
snAccountingCommandMethods
fdry.1.1.3.15.3.1
Syntax: Octet string
Read-write
Shows a sequence of accounting methods.
This object can have zero to three octets. Each octet represents an accounting method. Each octet can have one of the following values:
• radius(2) – Send accounting information to RADIUS server
• tacplus(5) – Send accounting information to TACACS+ server
• none(6) – No accounting method
Setting a zero length octet string invalidates all authorization methods.
7-10 © 2008 Foundry Networks, Inc. April 2008
User Access
RADIUS General GroupYou can use a Remote Authentication Dial In User Service (RADIUS) server to secure the following types of access to the Foundry switch or router:
• Telnet access
• SSH access
• Web management access
• Access to the Privileged EXEC level and CONFIG levels of the CLI
snAccountingCommandLevel
fdry.1.1.3.15.3.2
Syntax: Integer
Read-write
Specifies the commands that need to be accounted for. Any command that is equal to or less than the selected level will be accounted for:
• level(0) – Privilege level 0
• level(4) – Privilege level 4
• level(5) – Privilege level 5.
snAccountingExec
fdry.1.1.3.15.3.3
Syntax: Octet string
Read-write
Shows the sequence of accounting methods for exec programs.
This object can have zero to three octets. Each octet represents a method for Telnet or SSH login authorization. Each octet can have one of the following values:
• radius(2) – Send accounting information to the RADIUS server
• tacplus(5) – Send accounting information to the TACACS+ server
• none(6) – No accounting method
Setting a zero length octet string invalidates all authorization methods.
snAccountingSystem
fdry.1.1.3.15.3.4
Syntax: Octet string
Read-write
A sequence of accounting methods.
This object can have zero to three octets. Each octet represents a method to account for the system related events. Each octet has the following enumeration values:
• radius(2) – send accounting information to the RADIUS server
• tacplus(5) – send accounting information to the TACACS+ server
• none(6) – skip accounting
Setting a zero length octet string invalidates all previous accounting methods.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 7-11
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The following objects provide information on RADIUS authentication. They apply to all Foundry devices.
Name, OID, and Syntax Access Description
snRadiusGeneral
fdry.1.1.3.12.1
snRadiusSNMPAccess
fdry.1.1.3.12.1.1
Syntax: Integer
Read only Indicates if the RADIUS group MIB objects can be accessed by an SNMP manager:
• disabled(0) – All RADIUS group MIB objects return a “general error”
• enabled(1)
Default: disabled
snRadiusEnableTelnetAuth
fdry.1.1.3.12.1.2
Syntax: Integer
Read-write
Indicates if Telnet authentication as specified by the object “snRadiusLoginMethod” is enabled.
• disabled(0)
• enabled(1)
Default: disabled
snRadiusRetransmit
fdry.1.1.3.12.1.3
Syntax: Integer
Read-write
Indicates the number of authentication query retransmissions that can be sent to the RADIUS server.
Valid values: 0 – 5
Default: 3
snRadiusTimeOut
fdry.1.1.3.12.1.4
Syntax: Integer
Read-write
Specifies the number of seconds to wait for authentication reply from the RADIUS server.
Valid values: 0 – 15
Default: 3
snRadiusDeadTime
fdry.1.1.3.12.1.5
Syntax: Integer
Read-write
Specifies the RADIUS server dead time, each unit is one minute.
Valid values: 0 – 5
Default: 3
snRadiusKey
fdry.1.1.3.12.1.6
Syntax: Display string
Read-write
Shows the authentication key as encrypted text.
This object can have up to 32 characters.
7-12 © 2008 Foundry Networks, Inc. April 2008
User Access
snRadiusLoginMethod
fdry.1.1.3.12.1.7
Syntax: Octet string
Read-write
Shows the sequence of authentication methods for the RADIUS server. Each octet represents a method for authenticating the user at login. Each octet can have one of the following values:
• enable(1) – Authenticate by the “Enable” password for the command line interface
• radius(2) – Authenticate by requesting the RADIUS server
• local(3) – Authenticate by local user account table
• line(4) – Authenticate by the Telnet password
• tacplus(5) – Authenticate by requesting TACACS Plus server
• none(6) – Do not authenticate
• tacacs(7) – Authenticate by requesting TACACS server
Setting a zero length octet string invalidates all previous authentication methods.
snRadiusEnableMethod
fdry.1.1.3.12.1.8
Syntax: Octet string
Read-write
Shows the sequence of authentication methods for the RADIUS server. Each octet represents a method for authenticating the user after login, as the user enters the privilege mode of the command line interface. Each octet can have one of the following values:
• enable(1) – Authenticate by the “Enable” password for the command line interface
• radius(2) – Authenticate by requesting the RADIUS server
• local(3) – Authenticate by local user account table
• line(4) – Authenticate by the Telnet password
• tacplus(5) – Authenticate by requesting TACACS Plus server
• none(6) – Do not authenticate
• tacacs(7) – Authenticate by requesting TACACS server
Setting a zero length octet string invalidates all previous authentication methods.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 7-13
Foundry Management Information Base Reference
RADIUS Server Table (IPv4)The following objects provide information on the RADIUS server. They apply to all Foundry IPv4 devices.
NOTE: FastIron X Series IPv6 devices running software release 04.1.00 or later use the ““RADIUS Server Table (FastIron X Series IPv6 Devices)” on page 7-15.
snRadiusWebServerMethod
fdry.1.1.3.12.1.9
Syntax: Octet string
Read-write
Shows the sequence of authentication methods. Each octet represents a method for authenticating the user who is accessing the Web-server. Each octet can have one of the following values:
• enable(1) – Authenticate by the “Enable” password for the command line interface
• radius(2) – Authenticate by requesting the RADIUS server
• local(3) – Authenticate by local user account table
• line(4) – Authenticate by the Telnet password
• tacplus(5) – Authenticate by requesting TACACS Plus server
• none(6) – Do not authenticate
• tacacs(7) – Authenticate by requesting TACACS server
Setting a zero length octet string invalidates all previous authentication methods.
snRadiusSNMPServerMethod
fdry.1.1.3.12.1.10
Syntax: Octet string
Read-write
Shows the sequence of authentication methods. Each octet represents a method to authenticate the user who is accessing the SNMP server. Each octet can have one of the following values:
• enable(1) – Authenticate by the “Enable” password for the command line interface
• radius(2) – Authenticate by requesting the RADIUS server
• local(3) – Authenticate by local user account table
• line(4) – Authenticate by the Telnet password
• tacplus(5) – Authenticate by requesting TACACS Plus server
• none(6) – Do not authenticate
• tacacs(7) – Authenticate by requesting TACACS server
Setting a zero length octet string invalidates all previous authentication methods.
Name, OID, and Syntax Access Description
snRadiusServerTable
fdry.1.1.3.12.2
None RADIUS server table.
Name, OID, and Syntax Access Description
7-14 © 2008 Foundry Networks, Inc. April 2008
User Access
RADIUS Server Table (FastIron X Series IPv6 Devices)The following objects provide information on the RADIUS server. They apply to FastIron X Series IPv6 devices running software releases FSX 04.1.00 or later.
NOTE: Releases prior to FSX 04.1.00 use the “RADIUS Server Table (IPv4)” on page 7-14.
snRadiusServerEntry
fdry.1.1.3.12.2.1
None An entry in the RADIUS server table.
snRadiusServerIp
fdry.1.1.3.12.2.1.1
Syntax: IpAddress
Read only Shows the RADIUS server IP address.
snRadiusServerAuthPort
fdry.1.1.3.12.2.1.2
Syntax: Integer
Read-write
Shows the UDP port number for authentication.
Default: 1812
snRadiusServerAcctPort
fdry.1.1.3.12.2.1.3
Syntax: Integer
Read-write
Shows the UDP port number used for accounting.
Default: 1813
snRadiusServerRowStatus
fdry.1.1.3.12.2.1.4
Syntax: Integer
Read-write
Creates or deletes a RADIUS server table entry:
• other(1)
• valid(2)
• delete(3)
• create(4)
snRadiusServerRowKey
fdry.1.1.3.12.2.1.5
Syntax: Display string
Read-write
Shows the authentication key, displayed as encrypted text.
Valid values: Up to 32 characters.
snRadiusServerUsage
fdry.1.1.3.12.2.1.6
Syntax: Integer
Read-write
Allows this server to be dedicated for a particular AAA activity:
• default(1)
• authentication-only(2)
• authorization-only(3)
• accounting-only(4)
Name, OID, and Syntax Access Description
fdryRadiusServerTable
fdry.1.1.8.1.1.1
None RADIUS server table listing the RADIUS authentication servers.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 7-15
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TACACS General ObjectsThe Terminal Access Controller Access Control System (TACACS) or security protocols can be used to authenticate the following types of access to Foundry devices:
• Telnet access
• SSH access
• Securing Access to Management Functions
fdryRadiusServerEntry
fdry.1.1.8.1.1.1.1
Syntax: FdryRadiusServerEntry
None An entry in the RADIUS server table.
fdryRadiusServerIndex
fdry.1.1.8.1.1.1.1.1
Syntax: Unsigned32
None The index to the RADIUS server table. A maximum of eight RADIUS servers are supported.
fdryRadiusServerAddrType
fdry.1.1.8.1.1.1.1.2
Syntax: InetAddressType
Read-create
The RADIUS server IP address type. Supported types are:
• ipv4(1)
• ipv6(2)
Default: ipv4
fdryRadiusServerAddr
fdry.1.1.8.1.1.1.1.3
Syntax: InetAddress
Read-create
The RADIUS server IP address.
fdryRadiusServerAuthPort
fdry.1.1.8.1.1.1.1.4
Syntax: Unsigned32
Read-create
The authentication UDP port number.
Default: 1645
fdryRadiusServerAcctPort
fdry.1.1.8.1.1.1.1.5
Syntax: Unsigned32
Read-create
The account UDP port number.
Default: 1646
fdryRadiusServerRowKey
fdry.1.1.8.1.1.1.1.6
Syntax: Display string(size(0..32))
Read-create
The authentication key displayed as encrypted text.
fdryRadiusServerUsage
fdry.1.1.8.1.1.1.1.7
Syntax: ServerUsage
Read-create
Allows this server to be dedicated for a particular AAA activity.
fdryRadiusServerRowStatus
fdry.1.1.8.1.1.1.1.8
Syntax: RowStatus
Read-create
This variable is used to create, modify, or delete a row in this table. When a row in this table is in active(1) state, no objects in that row can be modified except this object.
Name, OID, and Syntax Access Description
7-16 © 2008 Foundry Networks, Inc. April 2008
User Access
• Web management access
• Access to the Privileged EXEC level and CONFIG levels of the CLI
The TACACS and protocols define how authentication, authorization, and accounting information is sent between a Foundry device and an authentication database on a TACACS server.
The following objects provide information on TACACS authentication. They apply to all Foundry devices. Refer to the Foundry Security Guide for more information on TACACS.
Name, OID, and Syntax Access Description
snTacacsGeneral
fdry.1.1.3.13.1
snTacacsRetransmit
fdry.1.1.3.13.1.1
Syntax: Integer
Read-write
Shows the number of authentication query retransmissions to the TACACS server.
Valid values: 0 – 5.
Default: 3
snTacacsTimeOut
fdry.1.1.3.13.1.2
Syntax: Integer
Read-write
Specifies how many seconds to wait for authentication reply from the TACACS server.
Valid values: 0 – 15
Default: 3 seconds
snTacacsDeadTime
fdry.1.1.3.13.1.3
Syntax: Integer
Read-write
Specifies the TACACS server dead time in minutes.
Valid values: 0 – 5
Default: 3 minutes
snTacacsKey
fdry.1.1.3.13.1.4
Syntax: Display string
Read-write
Authentication key displayed as encrypted text.
Valid values: Up to 32 characters.
snTacacsSNMPAccess
fdry.1.1.3.13.1.5
Syntax: Integer
Read only Indicates whether the TACACS group MIB objects can be accessed by an SNMP manager.
• disabled(0) – All TACACS group MIB objects return "general error"
• enabled(1)
Default: disabled(0)
April 2008 © 2008 Foundry Networks, Inc. 7-17
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TACACS Server Table (IPv4)The following objects provide information on the TACACS server. They apply to all Foundry IPv4 devices.
NOTE: For FastIron IPv6 devices running software release FSX 04.1.00 or later, see “TACACS Server Table (FastIron X Series IPv6 Devices)” on page 7-19.
Name, OID, and Syntax Access Description
snTacacsServerTable
fdry.1.1.3.13.2
None TACACS server table.
snTacacsServerEntry
fdry.1.1.3.13.2.1
None An entry in the TACACS server table.
snTacacsServerIp
fdry.1.1.3.13.2.1.1
Syntax: IpAddress
Read only Shows the TACACS server IP address.
snTacacsServerAuthPort
fdry.1.1.3.13.2.1.2
Syntax: Integer
Read-write
Specifies the UDP port used for authentication.
Default: 49
snTacacsServerRowStatus
fdry.1.1.3.13.2.1.3
Syntax: Integer
Read-write
Creates or deletes a TACACS server table entry:
• other(1)
• valid(2)
• delete(3)
• create(4)
snTacacsServerRowKey
fdry.1.1.3.13.2.1.4
Syntax: Display string
Read-write
Authentication key displayed as encrypted text.
Valid values: Up to 32 characters.
snTacacsServerUsage
fdry.1.1.3.13.2.1.5
Syntax: Integer
Read-write
Allows this server to be dedicated to a particular AAA activity:
• default(1) – All AAA functions
• authentication-only(2)
• authorization-only(3)
• accounting-only(4)
7-18 © 2008 Foundry Networks, Inc. April 2008
User Access
TACACS Server Table (FastIron X Series IPv6 Devices)The following objects provide information on the TACACS server. These objects apply to FastIron X Series IPv6 devices running software release FSX 04.1.00 or later.
NOTE: Releases prior to FSX 04.1.00 use the “TACACS Server Table (IPv4)” on page 7-18.
Name, OID, and Syntax Access Description
fdryTacacsServerTable
fdry.1.1.9.1.1.1
None The TACACS server table listing the TACACS authentication servers.
fdryTacacsServerEntry
fdry.1.1.9.1.1.1.1
None An entry in the TACACS server table. This table uses a running index as the index to the table.
fdryTacacsServerIndex
fdry.1.1.9.1.1.1.1.1
Syntax: Unsigned32
None The index to the TACACS server table. Up to eight TACACS servers are supported.
fdryTacacsServerAddrType
fdry.1.1.9.1.1.1.1.2
Syntax: InetAddresstype
Read-create
The TACACS server IP address type. Supported address types are:
• ipv4(1)
• ipv6(2)
Default: ipv4
fdryTacacsServerAddr
fdry.1.1.9.1.1.1.1.3
Syntax: Inetaddress
Read-create
The TACACS server IP address.
fdryTacacsServerAuthPort
fdry.1.1.9.1.1.1.1.4
Syntax: Unsigned32
Read-create
The UDP port used for authentication.
Default: 49
fdryTacacsServerRowKey
fdry.1.1.9.1.1.1.1.5
Syntax: Display string(size(0..32))
Read-create
The authentication key displayed as encrypted text.
Valid values: Up to 32 characters.
fdryTacacsServerUsage
fdry.1.1.9.1.1.1.1.6
Syntax: ServerUsage
Read-create
Allows this server to be dedicated to a particular AAA activity:
Default: default
fdryTacacsServerRowStatus
fdry.1.1.9.1.1.1.1.7
Syntax: RowStatus
Read-create
This variable is used to create, modify, or delete a row in this table. When a row in this table is in active(1) state, no objects in that row can be modified except this object.
April 2008 © 2008 Foundry Networks, Inc. 7-19
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Show Statistics DOS-AttackThe following objects have been created to provide DOS attack statistics through SNMP as shown in the following table.
NOTE: The DOS-Attack Global MIBs are supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
DOS-Attack Port TableThe following objects have been created to filter traffic for DOS attacks through SNMP as shown in the following table.
NOTE: The DOS-Attack Port MIBs are supported on the following products:
• BigIron RX
• NetIron XMR
Name, OID, and Syntax Access Description
snDosAttackICMPDropCount
fdry.1.1.3.14.3.1.1
Syntax: Counter32
Read only Provides the contents of the ICMP drop counter.
snDosAttackICMPBlockCount
fdry.1.1.3.14.3.1.2
Syntax: Counter32
Read only Provides the contents of the ICMP block counter.
snDosAttackSYNDropCount
fdry.1.1.3.14.3.1.3
Syntax: Counter32
Read only Provides the contents of the SYN drop counter.
snDosAttackSYNBlockCount
fdry.1.1.3.14.3.1.4
Syntax: Counter32
Read only Provides the contents of the SYN block counter.
snDosAttackPortSYNBlockCount
fdry.1.1.3.14.3.2.1.5
Syntax: Counter32
read only Value of the SYN block counter.
7-20 © 2008 Foundry Networks, Inc. April 2008
User Access
• NetIron MLX
Name, OID, and Syntax Access Description
snDosAttackPortTable
fdry.1.1.3.14.3.2
Syntax: Sequence of snDosAttackPortEntry
None Denial of service attack port table.
snDosAttackPortEntry
fdry.1.1.3.14.3.2.1
Syntax: snDosAttackPortEntry
None An entry of the denial of service attack port table.
snDosAttackPort
fdry.1.1.3.14.3.2.1.1
Syntax: INTEGER
read only Index value of a port.
snDosAttackPortICMPDropCount
fdry.1.1.3.14.3.2.1.2
Syntax: Counter32
read only Value of the ICMP drop counter.
snDosAttackPortICMPBlockCount
fdry.1.1.3.14.3.2.1.3
Syntax: Counter32
read only Value of the ICMP block counter.
snDosAttackPortSYNDropCount
fdry.1.1.3.14.3.2.1.4
Syntax: Counter32
read only Value of the SYN drop counter.
snDosAttackPortSYNBlockCount
fdry.1.1.3.14.3.2.1.5
Syntax: Counter32
read only Value of the SYN block counter.
April 2008 © 2008 Foundry Networks, Inc. 7-21
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7-22 © 2008 Foundry Networks, Inc. April 2008
Chapter 8Multi-Device Port Authentication
This chapter contains the following sections describing Multi-Device Port Authentication MIB objects. Multi-Device Port Authentication is also known as MAC Authentication.
• “Global Multi-Device Port Authentication Objects” on page 8-1
• “Clear Interface Multi-Device Port Authentication Objects” on page 8-2
• “Multi-Device Port Authentication Objects” on page 8-2
• “Multi-Device Port Authentication Clear Sessions” on page 8-3
Multi-Device Port Authentication The following tables describe the Multi-Device Port Authentication MIB objects.
Global Multi-Device Port Authentication ObjectsThe following global objects are available for Multi-Device Port Authentication:
Table 8.1: MAC Authentication Global Objects
Name, OID, and Syntax Access Description
snMacAuthClearGlobalCmd
fdry.1.1.3.28.1.1
Syntax: integer
Read-write Valid(0) - a SNMP-GET of this MIB shows that it is a valid command.
Clear(1) - represents clear MAC Authentication table for all ports.
snMacAuthGlobalConfigState
fdry.1.1.3.28.1.2
Syntax: Integer
Read-write Enables or disables MAC authentication on a global level.
April 2008 © 2008 Foundry Networks, Inc. 8-1
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Clear Interface Multi-Device Port Authentication ObjectsThe following clear interface objects are available for Multi-Device Port Authentication:
Multi-Device Port Authentication Objects The following bjects are available for Multi-Device Port Authentication:
Table 8.2: MAC Authentication Clear Interface Objects
Name, OID, and Syntax Access Description
snMacAuthClearIFCmdTable
fdry.1.1.3.28.2
Syntax: Sequence of SnMacAuthClearIfCmdEntry
None The status of clearing a MAC authentication entry for an interface.
snMacAuthClearIfCmdEntry
fdry.1.1.3.28.2.1
Syntax: SnMacAuthClearIfCmdEntry
None An entry clearing a MAC authentication entry for an interface.
snMacAuthClearIfCmdIndex
fdry.1.1.3.28.2.1.1
Syntax: InterfaceIndex
None The ifIndex value of the local interface on which a clear command is issued and monitored.
snMacAuthClearIfCmdAction
fdry.1.1.3.28.2.1.2
Syntax: InterfaceIndex
Read-write valid(0) - An SNMP-GET of this command shows that it is valid.
clear(1) - Represents clearing a MAC authenticaion entry for an interface.
Table 8.3: Multi-Device Port Authentication Objects
Name, OID, and Syntax Access Description
snMacAuthTable
fdry.1.1.3.28.3
Syntax: SEQUENCE OF SnMacAuthEntry
None Displays the MAC Authentication table.
snMacAuthEntry
fdry.1.1.3.28.3.1
Syntax: SnMacAuthEntry
None An entry in the MAC Authentication table.
snMacAuthIfIndex
fdry.1.1.3.28.3.1.1
Syntax: InterfaceIndex
None In order to identify a particular interface, this object identifies the instance of the ifIndex object, defined in RFC 2863.
snMacAuthVlanId
fdry.1.1.3.28.3.1.2
Syntax: INTEGER
None The ID of a VLAN of which the port is a member. The port must be untagged. For a tagged port which belongs to multiple VLANs, this object returns 0, which is an invalid VLAN ID value.
8-2 © 2008 Foundry Networks, Inc. April 2008
Multi-Device Port Authentication
Multi-Device Port Authentication Clear Sessions The following clear sessions objects are available for Multi-Device Port Authentication:
snMacAuthMac
fdry.1.1.3.28.3.1.3
Syntax: MacAddress
None MAC Address to be authenticated
snMacAuthState
fdry.1.1.3.28.3.1.4
Syntax: INTEGER
Read-only The state of MAC Authentication
snMacAuthTimeStamp
fdry.1.1.3.28.3.1.5
Syntax:OBJECT-TYPE
Read-only Timestamp at which the MAC was authenticated or failed to be authenticated.
snMacAuthAge
fdry.1.1.3.28.3.1.6
Syntax: INTEGER
Read-only Age of the mac session in which the MAC address is authenticated.
snMacAuthDot1x
fdry.1.1.3.28.3.1.7
Syntax: INTEGER
Read-only Indicates whether the Dot1x is enabled or not.
Table 8.4: MAC Authentication Clear Mac Session MIBs
Name, OID, and Syntax Access Description
snMacAuthClearMacSessionTable
fdry.1.1.3.28.4
Syntax: SEQUENCE OF SnMacAuthClearMacSessionEntry
None The status of clearing a MAC Session entry indexed by a MAC address.
snMacAuthClearMacSessionEntry
fdry.1.1.3.28.4.1
Syntax: SnMacAuthClearMacSessionEntry
None An entry of clearing a MAC Session entry indexed by a MAC address.
SnMacAuthClearMacSessionEntry = SEQUENCE
snMacAuthClearMacSessionIfIndexInterfaceIndex,snMacAuthClearMacSessionMacMacAddress,snMacAuthClearMacSessionActionINTEGER
snMacAuthClearMacSessionIfIndex
fdry.1.1.3.28.4.1.1
Syntax: InterfaceIndex
None The ifIndex value of the local interface on which a clear command is issued and monitored.
Table 8.3: Multi-Device Port Authentication Objects (Continued)
April 2008 © 2008 Foundry Networks, Inc. 8-3
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snMacAuthClearMacSessionMac
fdry.1.1.3.28.4.1.2
Syntax: MacAddress
None A MAC Session entry indexed by a MAC address.
snMacAuthClearMacSessionAction
fdry.1.1.3.28.4.1.3
Syntax: INTEGER
Read-write Valid(0) - An SNMP-GET of this MIB shows that it is a valid command.
Clear(1) - Represents clearing a MAC Session entry indexed by a MAC address.
Table 8.4: MAC Authentication Clear Mac Session MIBs
8-4 © 2008 Foundry Networks, Inc. April 2008
Chapter 9MAC Port Security
This chapter presents the objects used to secure MAC addresses on an interface. It contains the following sections:
• “MAC Port Security Table” on page 9-1
• “MAC Port Security Module Statistics Table” on page 9-2
• “MAC Port Security Interface Content Table” on page 9-3
• “MAC Port Security Interface MAC Table” on page 9-5
• “MAC Port Security Autosave MAC Table” on page 9-6
• “MAC Port Security Global MIB Group” on page 9-6
Refer to the Foundry Switch and Router Installation and Basic Configuration Guide or the FastIron Configuration Guide for details on the features discussed in this chapter.
NOTE: MAC Port Security MIBs are not supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
MAC Port Security TableThe MAC Port Security table shows the same information as the show port security mac CLI command.
Name, Identifier, and Syntax Access Description
snPortMacSecurityTable
fdry.1.1.3.24.1.1.1
N/A The MAC Port Security table.
April 2008 © 2008 Foundry Networks, Inc. 9-1
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MAC Port Security Module Statistics Tablehis table shows the same information as the show port security statistics <module> CLI command.
snPortMacSecurityEntry
fdry.1.1.3.24.1.1.1.1
N/A An entry in the MAC Port Security table.
snPortMacSecurityIfIndex
fdry.1.1.3.24.1.1.1.1.1
Syntax: Unsigned32
Read only The ifIndex value (ID) of the Ethernet interface on which MAC port security is enabled.
snPortMacSecurityResource
fdry.1.1.3.24.1.1.1.1.2
Syntax: Integer
Read only Indicates how the MAC addresses on an interface are secured:
local(1) – Local resource was used. The interface secures at least one secure MAC address entry. Each interface can store up to 64 local resources.
shared(2) – Shared resource was used. When an interface has secured enough MAC addresses to reach its limit for local resources, it can secure additional MAC addresses by using global or shared resources.
snPortMacSecurityQueryIndex
fdry.1.1.3.24.1.1.1.1.3
Syntax: Unsigned32
Read only An index for a MAC address entry that was secured for this interface.
snPortMacSecurityMAC
fdry.1.1.3.24.1.1.1.1.4
Syntax: Integer
Read only The secured MAC address.
snPortMacSecurityAgeLeft
fdry.1.1.3.24.1.1.1.1.5
Syntax: Unsigned32
Read only The number of minutes the MAC address will remain secure.
snPortMacSecurityShutdownStatus
fdry.1.1.3.24.1.1.1.1.6
Syntax: Integer
Read only Indicates if the inteface has been shut down due to a security violation.
• up(1) – The port is up.
• down(2) – The port has been shut down.
snPortMacSecurityShutdownTimeLeft
fdry.1.1.3.24.1.1.1.1.7
Syntax: Unsigned32
Read only If the value of the snPortMacSecurityShutdownStatus is down(2), this object shows the number of seconds before it is enabled again. If the value is up(1), this object shows 0.
snPortMacSecurityVlanId
fdry.1.1.3.24.1.1.1.1.8
Syntax: Unsigned32
Read only Shows the VLAN membership of this interface. This object shows a value from1 – 65535.
Name, Identifier, and Syntax Access Description
9-2 © 2008 Foundry Networks, Inc. April 2008
MAC Port Security
MAC Port Security Interface Content TableThis table shows the same information as the show port security ethernet <slot/port> CLI command.
snPortMacSecurityModuleStatTable
fdry.1.1.3.24.1.1.2
N/A The MAC Port Security Module Statistics table that shows the MAC port security statistics for each module.
snPortMacSecurityModuleStatEntry
fdry.1.1.3.24.1.1.2.1
N/A An entry in the MAC Port Security Module Statistics table.
snPortMacSecurityModuleStatSlotNum
fdry.1.1.3.24.1.1.2.1.1
Syntax: Integer
Read only The slot number of the MAC port security module.
snPortMacSecurityModuleStatTotalSecurityPorts
fdry.1.1.3.24.1.1.2.1.2
Syntax: Unsigned32
Read only The total number of Ethernet interfaces on which MAC security is configured in this module.
snPortMacSecurityModuleStatTotalMACs
fdry.1.1.3.24.1.1.2.1.3
Syntax: Unsigned32
Read only The total number of secure MAC addresses learned or configured in this module.
snPortMacSecurityModuleStatViolationCounts
fdry.1.1.3.24.1.1.2.1.4
Syntax: Unsigned32
Read only The number of security violations that occurred in this module.
snPortMacSecurityModuleStatTotalShutdownPorts
fdry.1.1.3.24.1.1.2.1.5
Syntax: Unsigned32
Read only The number of Ethernet interfaces in this module that were shut down due to security violations.
Name, Identifier, and Syntax Access Description
snPortMacSecurityIntfContentTable
fdry.1.1.3.24.1.1.3
N/A The MAC Port Security Interface Content table that shows the MAC port security statistics for an Ethernet interface.
snPortMacSecurityIntfContentEntry
fdry.1.1.3.24.1.1.3.1
N/A An entry in the MAC Port Security Interface Content table.
April 2008 © 2008 Foundry Networks, Inc. 9-3
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snPortMacSecurityIntfContentIfIndex
fdry.1.1.3.24.1.1.3.1.1
Syntax: InterfaceIndex
N/A An entry in the MAC Port Security Interface Content table, showing the ifIndex value of the local interface.
snPortMacSecurityIntfContentSecurity
fdry.1.1.3.24.1.1.3.1.2
Syntax: Integer
Read- write
Indicates whether MAC port security is enabled or disabled on this interface.
• 0 = disabled
• 1 = enabled
snPortMacSecurityIntfContentViolationType
fdry.1.1.3.24.1.1.3.1.3
Syntax: Integer
Read-write
The port security violation type for this interface:
• 0 = shutdown
• 1 = restricted
snPortMacSecurityIntfContentShutdownTime
fdry.1.1.3.24.1.1.3.1.4
Syntax: Unsigned32
Read-write
If the snPortMacSecurityIntfContentViolationType is 0 (shutdown), this value indicates the number of seconds the interface shuts down when the violation occurs.
If the snPortMacSecurityIntfContentViolationType is 1 (restrict), this value will always be 0.
snPortMacSecurityIntfContentShutdownTimeLeft
fdry.1.1.3.24.1.1.3.1.5
Syntax: Unsigned32
Read only If the snPortMacSecurityIntfContentViolationType is 0 (shutdown), this value indicates the number of seconds before this interface will be re-enabled.
If the snPortMacSecurityIntfContentViolationType is 1 (restrict), this value will always be 0.
snPortMacSecurityIntfContentAgeOutTime
fdry.1.1.3.24.1.1.3.1.6
Syntax: Unsigned32
Read-write
The amount of time, in minutes, the MAC addresses learned on this interface will remain secure. A value of 0 indicates no aging is in effect.
snPortMacSecurityIntfContentMaxLockedMacAllowed
fdry.1.1.3.24.1.1.3.1.7
Syntax: Unsigned32
Read-write
The maximum number of secure MAC addresses that can be locked to this interface.
snPortMacSecurityIntfContentTotalMACs
fdry.1.1.3.24.1.1.3.1.8
Syntax: Unsigned32
Read only The total number of secure MAC addresses that are locked to this interface.
snPortMacSecurityIntfContentViolationCounts
fdry.1.1.3.24.1.1.3.1.9
Syntax: Unsigned32
Read only The total number of security violations that occurred on this interface.
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MAC Port Security
MAC Port Security Interface MAC TableThis table shows the same information as the show port security mac ethernet <slot/port> CLI command.
Name, Identifier, and Syntax Access Description
snPortMacSecurityIntfMacTable
fdry.1.1.3.24.1.1.4
N/A The MAC Port Security Interface MAC table that shows the MAC port security status for each Ethernet interface.
snPortMacSecurityIntfMacEntry
fdry.1.1.3.24.1.1.4.1
N/A An entry in the MAC Port Security Interface MAC table.
snPortMacSecurityIntfMacIfIndex
fdry.1.1.3.24.1.1.4.1.1
Syntax: Integer
Read only An entry in the MAC Port Security Interface MAC table, showing the ifIndex value of the local interface.
snPortMacSecurityIntfMacAddress
fdry.1.1.3.24.1.1.4.1.2
Syntax: MAC Address
Read only The secure MAC addresses for this local Ethernet interface on which the secure MAC address is configured and/or learned. The maximum number of the secure MAC addresses is restricted by the object snPortMacSecurityIntfContentMaxLockedMacAllowed.
snPortMacSecurityIntfMacVlanId
fdry.1.1.3.24.1.1.4.1.3
Syntax: Unsigned32
Read-write
The VLAN membership of this interface. A value of zero indicates it is not applicable.
snPortMacSecurityIntfMacRowStatus
fdry.1.1.3.24.1.1.4.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
April 2008 © 2008 Foundry Networks, Inc. 9-5
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MAC Port Security Autosave MAC TableThis table shows the same information as the show port security autosave CLI command.
MAC Port Security Global MIB GroupThis table shows the global MIBs for MAC port security.
Name, Identifier, and Syntax Access Description
snPortMacSecurityAutosaveMacTable
fdry.1.1.3.24.1.1.5
N/A The MAC Port Security Autosave MAC table that shows the secure MAC addresses that were saved automatically.
snPortMacSecurityAutosaveMacEntry
fdry.1.1.3.24.1.1.5.1
N/A An entry in the MAC Port Security Autosave MAC table.
snPortMacSecurityAutosaveMacIfIndex
fdry.1.1.3.24.1.1.5.1.1
Syntax: Integer
Read only An entry in the MAC Port Security Autosave MAC table, showing the ifIndex value of the local interface.
snPortMacSecurityAutosaveMacResource
fdry.1.1.3.24.1.1.5.1.2
Syntax: Integer
Read only Indicates the resource used to autosave secure MAC addresses:
• 1 = local
• 2 = shared
snPortMacSecurityAutosaveMacQueryIndex
fdry.1.1.3.24.1.1.5.1.3
Syntax: Unsigned32
Read only The index entry within the given resource of the local interface on which MAC port security is autosaved.
snPortMacSecurityAutosaveMacAddress
fdry.1.1.3.24.1.1.5.1.4
Syntax: MAC Address
Read only The secure MAC addresses for this local Ethernet interface on which the secure MAC address is autosaved.
Name, Identifier, and Syntax Access Description
snPortMacGlobalSecurityFeature
fdry.1.1.3.24.1.2.1
Syntax: Integer
Read-write
Indicates whether port security for this device is disabled or enabled.
• 0 = disabled
• 1 = enabled
9-6 © 2008 Foundry Networks, Inc. April 2008
MAC Port Security
snPortMacGlobalSecurityAgeOutTime
fdry.1.1.3.24.1.2.2
Syntax: Unsigned32
Read-write
The amount of time, in minutes, the MAC addresses learned on this device will remain secure. A value of 0 indicates no aging is in effect.
snPortMacGlobalSecurityAutosave
fdry.1.1.3.24.1.2.3
Syntax: Unsigned32
Read-write
The port security autosave value for this device.
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9-8 © 2008 Foundry Networks, Inc. April 2008
Chapter 10MAC-Based VLAN
This chapter describes the following MAC-Based VLAN MIB objects:
• “MAC-Based VLAN Global Objects” on page 10-1
• “MAC-Based VLAN Port Member Objects” on page 10-2
• “MAC-Based VLAN If Objects” on page 10-3
• “MAC-Based VLAN Objects” on page 10-4
NOTE: These MIB objects are supported for FastIron GS and FastIron LS devices effective with FGS Release 04.0.00.
MAC-Based VLAN Global ObjectsThe following MAC-Based VLAN global objects have been created to provide support through SNMP.
Table 10.1: MAC-Based VLAN MIB Global Objects
Name, OID, and Syntax Access Description
snMacVlanGlobalObjects
fdry.1.1.3.30.1
None Displays the Global MAC VLAN Objects table.
snMacVlanGlobalClearOper
fdry.1.1.3.30.1.1
Syntax: INTEGER
Read-write valid(0) - a SNMP-GET of this MIB shows that it is valid command to use.
clear(1) - represents clear operational MAC-based Vlan entry for all ports."
snMacVlanGlobalDynConfigState
fdry.1.1.3.30.1.2
Syntax: INTEGER
Read-write Enables or disables MAC-Based VLAN dynamic activation on the global level.
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MAC-Based VLAN Port Member ObjectsThe following MAC-Based VLAN port member objects have been created to provide support through SNMP.
Table 10.2: MAC-Based VLAN Port Member Objects
Name, OID, and Syntax Access Description
snMacVlanTableObjects
fdry.1.1.3.30.2
None Use this table to create or delete a port to a MAC-Based VLAN.
snMacVlanPortMemberTable
fdry.1.1.3.30.2.1
Syntax: SEQUENCE OF SnMacVlanPortMemberEntry
None Displays the MAC-Based VLAN Port Member table.
snMacVlanPortMemberEntry
fdry.1.1.3.30.2.1.1
Syntax: SnMacVlanPortMemberEntry
None An entry in the MAC-Based VLAN Port Member table.
snMacBasedVlanPortMemberVlanId
fdry.1.1.3.30.2.1.1.1
Syntax: INTEGER
None The VLAN identifier.
snMacBasedVlanPortMemberPortId
fdry.1.1.3.30.2.1.1.2
Syntax: INTERFACE INDEX
None The IfIndex which is a member of the MAC-Based VLAN.
snMacBasedVlanPortMemberRowStatus
fdry.1.1.3.30.2.1.1.3
Syntax: INTEGER
Read-write This object is used to create and delete rows in the table, and control if they are used. Values are:
delete(3) - deletes a row
create(4) - creates a new row
If the row exists, then a SET with a value of create(4) returns a “wrong value” error. Deleted rows disappear immediately. The following values can be returned on reads:noSuchName - no such rowother(1) - some other casesvalid(2) - the row exists and is valid
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MAC-Based VLAN
MAC-Based VLAN If ObjectsThe following MAC-Based VLAN If objects have been created to provide support through SNMP.
Table 10.3: MAC-Based VLAN If Objects
Name, OID, and Syntax Access Description
snMacVlanIfTable
fdry.1.1.3.30.2.2
Syntax: SEQUENCE OF SnMacVlanIfEntry
None Displays the MAC VLAN Interface table.
snMacVlanIfEntry
fdry.1.1.3.30.2.2.1
Syntax: SnMacVlanIfEntry
None An entry in the MAC-Based VLAN interface table.
snMacVlanIfIndex
fdry.1.1.3.30.2.2.1.1
Syntax: InterfaceIndex
None The IfIndex which is a member of the MAC-Based VLAN.
snMacVlanIfEnable
fdry.1.1.3.30.2.2.1.2
Syntax: Integer
Read write The administrative status requested by management for MAC-Based VLAN on this interface. The value enabled(1) indicates that MAC-Based VLAN should be enabled on this interface. Disabled(2), indicates that MAC-Based VLAN is disabled on this interface.
snMacVlanIfMaxEntry
fdry.1.1.3.30.2.2.1.3
Syntax: INTEGER32
Read write The maximum number of allowed and denied MAC addresses (static and dynamic) that can be learned on the interface.
snMacVlanIfClearOper
fdry.1.1.3.30.2.2.1.4
Syntax: Integer
Read write Valid(0) - an SNMP-GET of this MIB shows that it is a valid command.
Clear(1) - Represents clearing operational MAC-Based VLAN entry for a port.
snMacVlanIfClearConfig
fdry.1.1.3.30.2.2.1.5
Syntax: Integer
Read write Valid(0) - an SNMP-GET of this MIB shows that it is a valid command.
Clear(1) - Represents clearing configured MAC-Based VLAN entry for a port.
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MAC-Based VLAN ObjectsThe following objects have been created to provide MAC-Based VLAN support through SNMP.
Table 10.4: MAC-Based VLAN Objects
Name, OID, and Syntax Access Description
snMacBasedVlanTable
fdry.1.1.3.30.2.3
Syntax: SEQUENCE OF SnMacBasedVlanEntry
None The MAC-Based VLAN table.
snMacBasedVlanEntry
fdry.1.1.3.30.2.3.1
Syntax: SnMacBasedVlanEntry
None An entry in the MAC-Based VLAN table.
snMacBasedVlanId
fdry.1.1.3.30.2.3.1.1
Syntax: Integer
None The ID of a VLAN of which this port is a mac-vlan-permit member. Port must be untagged. This object returns 0, which is an invalid VLAN ID value.
snMacBasedVlanMac
fdry.1.1.3.30.2.3.1.2
Syntax: MacAddress
None A host source MAC address to be authenticated.
snMacBasedVlanPriority
fdry.1.1.3.30.2.3.1.3
Syntax: Integer32
Read write The priority of the source MAC address.
snMacBasedVlanRowStatus
fdry.1.1.3.30.2.3.1.4
Syntax: Integer
Read write Creates and deletes rows in the table, and controls if the rows are used. The values are: delete(3) - deletes the rowcreate(4) - creates a new row
If the row exists, then a SET with a value of create(4) returns a “wrong value” error. Deleted rows disappear immediately. The following values can be returned on reads:noSuchName - no such rowother(1) - some other casesvalid(2) - the row exists and is valid
10-4 © 2008 Foundry Networks, Inc. April 2008
Chapter 11Interfaces
This chapter presents the objects used to define interfaces on a device. It contains the following sections:
• “Switch Port Information” on page 11-1
• “Interface ID Lookup Table” on page 11-12
• “Interface Index Lookup Table” on page 11-14
• “Trunk Port Configuration Group” on page 11-15
• “Multi-Slot Trunk Port Table” on page 11-15
• “Multi-Slot Trunk Port Table” on page 11-16
• “Packet Port Information Table” on page 11-18
• “Loopback Interface Configuration Table” on page 11-24
• “Port STP Configuration Groups” on page 11-25
• “Port Monitor Table” on page 11-32
Refer to the Foundry Switch and Router Installation and Basic Configuration Guide for details on the features discussed in this chapter.
Switch Port InformationThe following table contains information about the switch port groups.
Switch Port Information GroupThe snSwIfInfoTable contains information about the switch port groups.
Name, OID, and Syntax Access Description
snSwIfInfoTable
fdry.1.1.3.3.5
None The Switch Port Information Table.
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snSwIfInfoEntry
fdry.1.1.3.3.5.1
None An entry in the snSwIfInfo table indicates the configuration for a specified port. An SNMP SET PDU for a row of the snSwPortInfoTable requires the entire sequence of the MIB Objects in each snSwPortInfoEntry stored in one PDU. Otherwise, GENERR return-value will be returned.
snSwIfInfoPortNum
fdry.1.1.3.3.5.1.1
Syntax: InterfaceIndex
Read only Shows the port or interface index.
snSwIfInfoMonitorMode
fdry.1.1.3.3.5.1.2
Syntax: Integer
Read-write
Indicates the method used to monitor traffic on a port:
• disabled(0) – No traffic monitoring.
• input(1) – Traffic monitoring is activated on packets received
• output(2) – Traffic monitoring is activated on packets transmitted
• both(3) – Traffic monitoring is activated on packets received and transmitted.
Default: disabled(0)
snSwIfInfoMirrorPorts
ffdry.1.1.3.3.5.1.3
Syntax: Integer
Read-write
Contains a list of port or interface indexes (ifindex) that mirror this interface when monitoring is enabled.
snSwIfInfoTagMode
fdry.1.1.3.3.5.1.4
Syntax: Integer
Read-write
Indicates if the port has an 802.1q tag:
• tagged(1) – Ports can have multiple VLAN IDs since these ports can be members of more than one VLAN.
• untagged(2) – There is only one VLAN ID per port.
snSwIfInfoTagType
fdry.1.1.3.3.5.1.5
Syntax: Integer
Read-write
Indicated the interface’s IEEE802.1q tag type. The tag type is embedded in the two octets in the length/type filed of an Ethernet packet.
Name, OID, and Syntax Access Description
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Interfaces
snSwIfInfoChnMode
fdry.1.1.3.3.5.1.6
Syntax: Integer
Read-write
Indicates if the port operates in half- or full-duplex mode:
• halfDuplex(1) – Half duplex mode. Available only for 10/100 Mbps ports.
• fullDuplex(2) – Full duplex mode. 100BaseFx, 1000BaseSx, and 1000BaseLx ports operate only at fullDuplex(2).
The read-back channel status from hardware can be:
• none(0) – Link down or port disabled.
• halfDuplex(1) – Half duplex mode.
• fullDuplex(2) – Full duplex mode.
The port media type (expansion or regular) and port link type (trunk or feeder) determine the value of this object. The port cannot be set to half duplex mode if the port connect mode is m200e(4). However, the value of this parameter may be automatically set whenever the expansion port is connected, for example, in the case of cascade connecting device.
Name, OID, and Syntax Access Description
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snSwIfInfoSpeed
fdry.1.1.3.3.5.1.7
Syntax: Integer
Read-write
Indicates the speed configuration for a port:
• none(0) – Link down or no traffic.
• sAutoSense(1) – Auto-sensing 10 or 100Mbits.
• s10M(2) – 10Mbits per second.
• s100M(3) – 100Mbits per second.
• s1G(4) – 1Gbits per second.
• s45M(5) – 45Mbits per second (T3) (for expansion board only).
• s155M(6) – 155Mbits per second (ATM) (for expansion board only).
• s10G(7) – 10Gbits per second.
• s622M(8) – OC12 - 622Mbits per second. (NetIron XMR and NetIron MLX software release 03.4.00 and later.)
• s2488M(9) – OC48 - 2.488Gbits per second. (NetIron XMR and NetIron MLX software release 03.4.00 and later.)
• s9953M(10) – OC192 - 9.953Gbits per second. (NetIron XMR and NetIron MLX software release 03.4.00 and later.)
The read-back hardware status are the following:
• none(0) – Link down or no traffic.
• s10M(2) – 10Mbits per second.
• s100M(3) – 100Mbits per second.
• s1G(4) – 1Gbits per second.
• s45M(5) – 45Mbits per second (T3) (for expansion board only).
• s155M(6) – 155Mbits per second (ATM) (for expansion board only).
• s10G(7) – 10Gbits per second.
• s622M(8) – OC12 - 622Mbits per second. (NetIron XMR and NetIron MLX software release 03.4.00 and later.)
• s2488M(9) – OC48 - 2.488Gbits per second. (NetIron XMR and NetIron MLX software release 03.4.00 and later.)
• s9953M(10) – OC192 - 9.953Gbits per second. (NetIron XMR and NetIron MLX software release 03.4.00 and later.)
The port media type (expansion or regular) and port link type (trunk or feeder) determine whether this object can be written and the valid values for this object. It is not allowed to change speed for trunks ports. For expansion ports, all of the above speeds can be set; however, the value of this parameter may be automatically set whenever the expansion port is connected, for example, in the case of cascade connecting device.
Name, OID, and Syntax Access Description
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Interfaces
snSwIfInfoMediaType
fdry.1.1.3.3.5.1.8
Syntax: Integer
Read only Shows the media type for the port:
• other(1) – other or unknown media.
• m100BaseTX(2) – 100Mbits per second copper.
• m100BaseFX(3) – 100Mbits per second fiber.
• m1000BaseFX(4) – 1Gbits per second fiber.
• mT3(5) – 45Mbits per second (T3).
• m155ATM(6) – 155Mbits per second (ATM).
• m1000BaseTX(7) – 1Gbits per second copper.
• m622ATM(8) – 622Mbits per second (ATM).
• m155POS(9) – 155Mbits per second (POS).
• m622POS(10) – 622Mbits per second (POS).
• m2488POS(11) – 2488Mbits per second (POS).
• m10000BaseFX(12) – 10Gbits per second fiber.m9953POS(13) – 9953Mbits per second (POS). (NetIron XMR and NetIron MLX software release 03.4.00 and later.)
snSwIfInfoConnectorType
fdry.1.1.3.3.5.1.9
Syntax: Integer
Read only Shows the type of connector that the port offers:
• other(1) – Other or unknown connector
• copper(2) – Copper connector
• fiber(3) – Fiber connector This describes the physical connector type
snSwIfInfoAdminStatus
fdry.1.1.3.3.5.1.10
Syntax: Integer
Read-write
Shows the desired state of all ports.
• up(1) – Ready to pass packets
• down(2)
• testing(3) – No operational packets can be passed (same as ifAdminStatus in MIB-II)
snSwIfInfoLinkStatus
fdry.1.1.3.3.5.1.11
Syntax: Integer
Read only Shows the current operational state of the interface.
• up(1) – Ready to pass packets
• down(2)
• testing(3) – No operational packets can be passed (same as ifAdminStatus in MIB-II)
Name, OID, and Syntax Access Description
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snSwIfInfoPortQos
fdry.1.1.3.3.5.1.12
Syntax: Integer
Read-write
Indicates the quality of service level selected for the port.
For stackable devices other than the FES, the QoS can be one of the following:
• low(0) – low priority
• high(1) – high priority.
For FES devices running software release 03.5.00 or later, the QoS can be one of the following:
• level0(0) best-effort queue
• level1(1) normal priority queue
• level2(2) high priority queue
• level3(3) premium (highest-priority) queue
For chassis devices, the values can be:
• level0(0)
• level1(1)
• level2(2)
• level3(3)
• level4(4)
• level5(5)
• level6(6)
• level7(7)
snSwIfInfoPhysAddress
fdry.1.1.3.3.5.1.13
Syntax: Physical address
Read only Shows the port’s physical address.
snSwIfLockAddressCount
fdry.1.1.3.3.5.1.14
Syntax: Integer
Read-write
Indicates the number of source MAC addresses that are allowed on the interface.
Valid values: 0 – 2048. If you enter 0 allow an unlimited number of addresses.
Default: 8
snSwIfStpPortEnable
fdry.1.1.3.3.5.1.15
Syntax: Integer
Read-write
Indicates if STP is enabled for the port:
• disabled(0)
• enabled(1)
Refer to the document IEEE 802.1D-1990: Section 4.5.5.2, dot1dStpPortEnable.
snSwIfDhcpGateListId
fdry.1.1.3.3.5.1.16
Syntax: Integer
Read-write
Specifies the ID for a DHCP gateway list entry relative to this switch port.
Valid values: 0 – 32. A value of 0 means that the ID is unassigned.
Name, OID, and Syntax Access Description
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Interfaces
snSwIfName
fdry.1.1.3.3.5.1.17
Syntax: Display string
Read-write
Indicates the port name or description. This description may have been entered using the CLI.
Valid values: Up to 32 characters for most devices. Up to 255 characters for NetIron XMR and FES.
snSwIfDescr
dry.1.1.3.3.5.1.18
Syntax: Display string
Read-write
The name of the interface.
snSwIfInfoAutoNegotiate
fdry.1.1.3.3.5.1.19
Syntax: Integer
Read-write
Applies only to Gigabit Ethernet ports.
Indicates if auto-negotiation mode is enabled on the port.
• disable(0) – The port will be placed in non-negotiation mode.
• enable(1) – The port will start auto-negotiation indefinitely until it succeeds.
• negFullAuto(2) – The port will start with auto-negotiation. If the negotiation fails, then it will automatically switch to non-negotiation mode. This option is not supported in stackable products Gigabit Ethernet ports, except for TurboIron/8.
• global(3) – The port negotiation mode follows the value of snSwGlobalAutoNegotiate.
• other(4) – Non-Gigabit Ethernet.
Default: global(3)
snSwIfInfoFlowControl
fdry.1.1.3.3.5.1.20
Syntax: Integer
Read-write
Indicates if port flow control is enabled:
• disable(0)
• enable(1)
Default: enabled(1)
Name, OID, and Syntax Access Description
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snSwIfInfoGigType
fdry.1.1.3.3.5.1.21
Syntax: Integer
Read only Applies only to Gigabit Ethernet ports.
Shows the media type for the port:
• m1000BaseSX(0) – 1-Gbps fiber, with a short wavelength transceiver
• m1000BaseLX(1) – 1-Gbps fiber, with a long wavelength transceiver (3km)
• m1000BaseLH(2) – 1-Gbps fiber, with a special wavelength transceiver (50km)
• m1000BaseLHB(4) – 1-Gbps fiber, with a special wavelength transceiver (150km).
• m1000BaseTX(5) – 1-Gbps copper (100meter).
• m10000BaseSR(6) – 10-Gbps fiber, with a short range wavelength transceiver (100m).
• m10000BaseLR(7) – 10-Gbps fiber, with a long range wavelength transceiver (10km).
• m10000BaseER(8) – 10-Gbps fiber, with a extended range wavelength transceiver (40km).
• notApplicable(255) – a non-gigabit port.
snSwIfFastSpanPortEnable
fdry.1.1.3.3.5.1.22
Syntax: Integer
Read-write
Indicates if fast span is enabled on the port.
• disable(0)
• enable(1)
snSwIfFastSpanUplinkEnable
fdry.1.1.3.3.5.1.23
Syntax: Integer
Read-write
Indicates if fast span uplink is enabled on the port.
• disable(0)
• enable(1)
snSwIfVlanId
fdry.1.1.3.3.5.1.24
Syntax: Integer
Read only Shows the ID of a VLAN of which this port is a member. Port must be untagged.
Valid values: 0 – 4095; where 0 means an invalid VLAN ID value, which is returned for tagged ports.
snSwIfRouteOnly
fdry.1.1.3.3.5.1.25
Syntax: Integer
Read-write
Indicates if Layer 2 switching is enabled on a routing switch port.
• disable(0) – Instructs the routing switch to perform routing first. If that fails, it performs switching.
• enable(1) – Instructs the routing switch to perform routing only.
For a Layer 2 switching only product, reading this object always returns "disabled". Writing "enabled" to this object takes no effect.
Default: disabled(0)
Name, OID, and Syntax Access Description
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snSwIfPresent
fdry.1.1.3.3.5.1.26
Syntax: Integer
Read only Applies only to M4 modules and FES.
Indicates if the mini-GBIC optic is absent or present.
• false(0)
• true(1)
snSwIfGBICStatus
fdry.1.1.3.3.5.1.27
Syntax: Integer
Read only Indicates if the Gigabit port has a GBIC or miniGBIC port:
• GBIC(1) – GBIC
• miniGBIC(2) – MiniGBIC
• empty(3) – GBIC is missing
• other(4) – Not a removable Gigabit port
snSwIfLoadInterval
fdry.1.1.3.3.5.1.28
Syntax: Integer
Read-write
Shows the number of seconds for which average port utilization should be calculated.
Valid values: 30 – 300, in 30 second increments.
Default: 300 seconds
NOTE: This object is implemented in IronWare release 07.5.04, TrafficWorks release 8.x, and FES release 03.5.00.
snSwIfStatsInFrames
fdry.1.1.3.3.5.1.29
Syntax: Counter
Read only Shows the total number of packets received on the interface.
snSwIfStatsOutFrames
fdry.1.1.3.3.5.1.30
Syntax: Counter
Read only Shows the total number of packets transmitted out of the interface.
snSwIfStatsAlignErrors
fdry.1.1.3.3.5.1.31
Syntax: Counter
Read only Shows the number of dot3StatsAlignmentErrors, which consists of frames received on a particular interface that are not an integral number of octets in length and do not pass the FCS check.
The count represented by an instance of this object is incremented when the alignmentError status is returned by the MAC service to the LLC (or other MAC user). According to the conventions of IEEE 802.3 Layer Management, received frames for which multiple error conditions are obtain are counted exclusively according to the error status presented to the LLC.
snSwIfStatsFCSErrors
fdry.1.1.3.3.5.1.32
Syntax: Counter
Read only Shows the number of dot3StatsFCSErrors, which consists of frames received on a particular interface that are an integral number of octets in length but do not pass the FCS check.
The count represented by an instance of this object is incremented when the frameCheckError status is returned by the MAC service to the LLC (or other MAC user). According to the conventions of IEEE 802.3 Layer Management, received frames for which multiple error conditions are obtain are counted exclusively according to the error status presented to the LLC.
Name, OID, and Syntax Access Description
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snSwIfStatsMultiColliFrames
fdry.1.1.3.3.5.1.33
Syntax: Counter
Read only Shows the number of dot3StatsMultipleCollisionFrames, which consists of successfully transmitted frames on a particular interface for which transmission is inhibited by more than one collision.
A frame that is counted by an instance of this object is also counted by the corresponding instance of either the ifOutUcastPkts, ifOutMulticastPkts, or ifOutBroadcastPkts and is not counted by the corresponding instance of the dot3StatsSingleCollisionFrames object.
snSwIfStatsTxColliFrames
fdry.1.1.3.3.5.1.34
Syntax: Counter
Read only Shows the number of successfully transmitted frames on a particular interface for which transmission is inhibited by more than one collision. This count is a combination of the dot3StatsSingleCollisionFrames and dot3StatsMultipleCollisionFrames objects.
snSwIfStatsRxColliFrames
fdry.1.1.3.3.5.1.35
Syntax: Counter
Read only Shows the number of successfully received frames on a particular interface for which transmission is inhibited by more than one collision.
snSwIfStatsFrameTooLongs
fdry.1.1.3.3.5.1.36
Syntax: Counter
Read only Shows the number of dot3StatsFrameTooLongs, which consists of frames received on a particular interface that exceed the maximum permitted frame size.
The count represented by an instance of this object is incremented when the frameTooLong status is returned by the MAC service to the LLC (or other MAC user). According to the conventions of IEEE 802.3 Layer Management, received frames for which multiple error conditions are obtain are, counted exclusively according to the error status presented to the LLC.
snSwIfStatsFrameTooShorts
fdry.1.1.3.3.5.1.37
Syntax: Counter
Read only Shows the number frames received on a particular interface that are below the minimum permitted frame size.
snSwIfStatsInBcastFrames
fdry.1.1.3.3.5.1.38
Syntax: Counter
Read-write
Shows the total number of broadcast packets received on the interface.
snSwIfStatsOutBcastFrames
fdry.1.1.3.3.5.1.39
Syntax: Counter
Read only Shows the total number of broadcast packets transmitted out of the interface.
snSwIfStatsInMcastFrames
fdry.1.1.3.3.5.1.40
Syntax: Counter
Read only Shows the total number of multicast packets received on the interface.
snSwIfStatsOutMcastFrames
fdry.1.1.3.3.5.1.41
Syntax: Counter
Read only Shows the total number of multicast packets transmitted out of the interface.
Name, OID, and Syntax Access Description
11-10 © 2008 Foundry Networks, Inc. April 2008
Interfaces
snSwIfStatsInDiscard
fdry.1.1.3.3.5.1.42
Syntax: Counter
Read only Shows the number of inbound packets that will be discarded even though they have no errors. These packets will be discarded to prevent them from being deliverable to a higher-layer protocol. For example, packets may be discarded to free up buffer space.
snSwIfStatsOutDiscard
fdry.1.1.3.3.5.1.43
Syntax: Counter
Read only Shows the number of outbound packets that will be discarded even though they contain no errors. For example, packets may be discarded to free up buffer space.
snSwIfStatsMacStations
fdry.1.1.3.3.5.1.44
Syntax: Integer
Read only Shows the total number of MAC Stations connected to the interface.
snSwIfStatsLinkChange
fdry.1.1.3.3.5.1.45
Syntax: Counter
Read only Shows the total number of link state changes on the interface.
snSwIfInOctets
fdry.1.1.3.3.5.1.46
Syntax: Octet string
Read only Shows the total number of octets received on the interface, including framing characters. This object is a 64-bit counter of the ifInOctets object defined in RFC 1213. The octet string is in big-endian byte order.
This object has eight octets.
snSwIfOutOctets
fdry.1.1.3.3.5.1.47
Syntax: Octet string
Read only Shows the total number of octets transmitted out of the interface, including framing characters. This object is a 64-bit counter of the ifOutOctets object, defined in RFC 1213. The octet string is in big-endian byte order.
This object has eight octets.
snSwIfStatsInBitsPerSec
fdry.1.1.3.3.5.1.48
Syntax: Gauge
Read only Shows the number of bits per second received on the interface over a five-minute interval.
snSwIfStatsOutBitsPerSec
fdry.1.1.3.3.5.1.49
Syntax: Gauge
Read only Shows the number of bits per second transmitted out of the interface over a five-minute interval.
snSwIfStatsInPktsPerSec
fdry.1.1.3.3.5.1.50
Syntax: Gauge
Read only Shows the number of packets per second received on the interface over a five-minute interval.
snSwIfStatsOutPktsPerSec
fdry.1.1.3.3.5.1.51
Syntax: Gauge
Read only Shows the number of packets per second transmitted out of the interface over a five-minute interval.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 11-11
Foundry Management Information Base Reference
Interface ID Lookup TableThe Interface ID Lookup Table maps interface ID to the InterfaceIndex (ifIndex) Lookup Table. Given an interface ID, this table returns the ifIndex value. The table is useful for mapping a known interface to the corresponding ifIndex value.
snSwIfStatsInUtilization
fdry.1.1.3.3.5.1.52
Syntax: Integer
Read only Indentifies the input network utilization in hundredths of a percent over a five-minute interval.
Valid values: 0 – 10000.
snSwIfStatsOutUtilization
fdry.1.1.3.3.5.1.53
Syntax: Integer
Read only Shows the output network utilization in hundredths of a percent over a five-minute interval.
Valid values: 0 – 10000.
NOTE: Ethernet devices must allow a minimum idle period between transmission of frames known as interframe gap (IFG) or interpacket gap (IPG). The gap provides a brief recovery time between frames to allow devices to prepare to receive the next frame. The minimum IFG is 96 bit times, which is 9.6 microseconds for 10 Mbps Ethernet, 960 nanoseconds for 100 Mbps Ethernet, and 96 nanoseconds for 1 Gbps Ethernet. In addition, to account for the bit rate on the port, port utilization should also account for the IFG, which normally is filtered by the packet synchronization circuitry.
Refer to the etherHistoryUtilization objects in the RFC 1757: Remote Network Monitoring Management Information Base for details.
snSwIfStatsInKiloBitsPerSec
fdry.1.1.3.3.5.1.54
Syntax: Unsigned32
Read-only Shows the bit rate, in kilobits per second, received on a 10 Gigabit or faster interface within a five minute interval.
snSwIfStatsOutKiloBitsPerSec
fdry.1.1.3.3.5.1.55
Syntax: Unsigned32
Read-only Shows the bit rate, in kilobits per second, transmitted from a 10 Gigabit or faster interface within a five minute interval.
snSwlfStatsInJumboFrames
fdry.1.1.3.3.5.1.56
Syntax: Counter64
Read only The total number of jumbo packets received on the interface.
This always returns 0 when applied to BigIron RX and NetIron XMR /IMR devices.
snSwlfStatsOutJumboFrames
fdry.1.1.3.3.5.1.57
Syntax: Counter64
Read only The total number of jumbo packets transmitted out of the interface.
This always returns 0 when applied to BigIron RX and NetIron XMR/IMR devices.
snSwlfSInfoMirrorMode
fdry.1.1.3.3.5.1.58
Syntax: INTEGER
Read only Provides the mirror mode status as described:
• disable (0)
• enable (1)
snSwlfMacLearningDisable
fdry.1.1.3.3.5.1.59
Syntax: Syntax: TruthVal
Read-write
DIsplays the status of MAC Learning on an ethernet port.
For POS ports, Get operation will return the default value and Set operation will return an error.
Name, OID, and Syntax Access Description
11-12 © 2008 Foundry Networks, Inc. April 2008
Interfaces
NOTE: The contents of the table can only be accessed using Get operations. Unlike other SNMP tables, this table does not support GetNext operations. If you try to walk the table using GetNext, no rows will be returned.
Name, OID, and Syntax Access Description
snInterfaceLookupTable
fdry.1.1.3.3.3
None The Interface Lookup Table
snInterfaceLookupEntry
fdry.1.1.3.3.3.1
None An entry in the Interface Lookup Table
snInterfaceLookupInterfaceId
fdry.1.1.3.3.3.1.1
Syntax: InterfaceId
Read only Shows the interface ID which consists of the following:
Octet 0 – Port type, which can be one of the following:
• 1 – Ethernet
• 2 – POS
• 3 – ATM
• 4 – Virtual
• 5 – Loopback
• 6 – GRE Tunnel
• 7 – ATM Subif
• 8 – MPLS Tunnel
• 9 – ATM PVC
Octet 1
• If the value of Octet 0 is 1,2,3,7 or 9, then this octet shows the device’s slot number.
• If the value of Octet 0 is 6 or 8, then this octet shows the tunnel ID.
• If the value of Octet 0 is 5, then this octet shows the loopback ID.
• If the value of Octet 0 is 4, then this octet shows a virtual ID.
Octet 2 – If the value of Octet 0 is 1,2,3,7 or 9, then this octet shows the port number
Octet 3 – If the value of Octet 0 is 7 0r 9, then this octet shows the ATM Subif number)
Octet 4 – If the value of Octet 0 is 9, then this octet shows the ATM VPI number.
Octet 5 – If the value of Octet 0 is 9, then this octet shows the ATM VCI number.
snInterfaceLookupIfIndex
fdry.1.1.3.3.3.1.2
Syntax: Integer
Read only Shows the interface in the ifIndex format.
April 2008 © 2008 Foundry Networks, Inc. 11-13
Foundry Management Information Base Reference
Interface Index Lookup TableThe Interface Index Lookup Table maps ifindex values to Interface ID Lookup Table. Given an ifIndex, this table returns the interface ID value.
Name, OID, and Syntax Access Description
snIfIndexLookupTable
fdry.1.1.3.3.4
None The IF Index Lookup Table
snIfIndexLookupEntry
fdry.1.1.3.3.4.1
None An entry in the IF Index Lookup Table
snIfIndexLookupIfIndex
fdry.1.1.3.3.4.1.1
Syntax: Integer
Read only Shows the interface in the ifIndex format.
snIfIndexLookupInterfaceId
fdry.1.1.3.3.4.1.2
Syntax: InterfaceId
Read only Octet 0 – Port type, which can be one of the following:
• 1 – Ethernet
• 2 – POS
• 3 – ATM
• 4 – Virtual
• 5 – Loopback
• 6 – GRE Tunnel
• 7 – ATM Subif
• 8 – MPLS Tunnel
• 9 – ATM PVC
Octet 1
• If the value of Octet 0 is 1,2,3,7 or 9, then this octet shows the device’s slot number.
• If the value of Octet 0 is 6 or 8, then this octet shows the tunnel ID.
• If the value of Octet 0 is 5, then this octet shows the loopback ID.
• If the value of Octet 0 is 4, then this octet shows a virtual ID.
Octet 2 – If the value of Octet 0 is 1,2,3,7 or 9, then this octet shows the port number
Octet 3 – If the value of Octet 0 is 7 0r 9, then this octet shows the ATM Subif number)
Octet 4 – If the value of Octet 0 is 9, then this octet shows the ATM VPI number.
Octet 5 – If the value of Octet 0 is 9, then this octet shows the ATM VCI number.
11-14 © 2008 Foundry Networks, Inc. April 2008
Interfaces
Trunk Port Configuration GroupThe Trunk Group feature allows you to manually configure multiple high-speed, load-sharing links between two Foundry switches or routers or between a Foundry switch and router and a server. Details on trunk group configuration are discussed in the Foundry Switch and Router Installation and Basic Configuration Guide.
The following objects contain configuration of trunk port memberships and apply to all Foundry devices.
Multi-Slot Trunk Port TableThe following table applies to multi-slot trunk ports. They show the ports that are members of a trunk group. They apply to all Foundry devices unless otherwise specified in their descriptions.
Name, OID, and Syntax Access Description
snTrunkTable
fdry.1.1.3.6.1
None The Trunk Port Table. A specific snTrunkTable consists of a number of Trunk port-mask.
snTrunkEntry
fdry.1.1.3.6.1.1
None An entry in the trunk Port Table.
snTrunkIndex
fdry.1.1.3.6.1.1.1
Syntax: Integer
Read only Shows the number of the trunk port entries that can be configured.
Valid values: 1 – 64.
snTrunkPortMask
fdry.1.1.3.6.1.1.2
Syntax: PortMask
Read-write
Shows the trunk port membership of the switch.
snTrunkType
fdry.1.1.3.6.1.1.3
Syntax: Integer
Read-write
Indicates if the trunk port is connected to a switch or a server:
• switch(1)
• server(2).
Name, OID, and Syntax Access Description
snMSTrunkTable
fdry.1.1.3.6.2
None The Multi-slot Trunk Port Configuration Table.
snMSTrunkEntry
fdry.1.1.3.6.2.1
None An entry of the Multi-slot Trunk Port Configuration Table.
snMSTrunkPortIndex
fdry.1.1.3.6.2.1.1
Syntax: Integer
Read only Identifies the port that is the primary port of a trunk group.
For module with Gigabit ports, the primary port is port 1, 3, 5, or 7.
For module with 10/100 ports, the primary port is port 1, 5, 9, 13, 17, or 21.
April 2008 © 2008 Foundry Networks, Inc. 11-15
Foundry Management Information Base Reference
Multi-Slot Trunk Port TableThe snMSTrunkTable has been made obsolete and replaced with the snMSTrunkIfTable as described in the following.
snMSTrunkPortList
fdry.1.1.3.6.2.1.2
Syntax: Octet string
Read-write
Contains a list of port indices that are members of a trunk group. Each port index is a 16-bit integer in big endian order. The first port index must be the index of the primary port.
snMSTrunkType
fdry.1.1.3.6.2.1.3
Syntax: Integer
Read-write
Specifies if the ports are connected to a switch or a server:
• switch(1)
• server(2)
snMSTrunkRowStatus
fdry.1.1.3.6.2.1.4
Syntax: Integer
Read-write
Applies to all Foundry devices, except for ServerIron products.
Creates, deletes, or modifies an entry in this table:
• invalid(1)
• valid(2)
• delete(3)
• create(4)
• modify(5)
Name, OID, and Syntax Access Description
snMSTrunkIfTable
fdry.1.1.3.6.3
None The Multi-slot Trunk Interface Configuration Table.
snMSTrunkIfEntry
fdry.1.1.3.6.3.1
None An entry of the Multi-slot Trunk Interface Configuration Table.
snMSTrunkIfIndex
fdry.1.1.3.6.3.1.1
Syntax: Integer
Read only Identifies the port that is the primary port of a trunk group.
For module with Gigabit ports, the primary port is port 1, 3, 5, or 7.
For module with 10/100 ports, the primary port is port 1, 5, 9, 13, 17, or 21.
snMSTrunkIfList
fdry.1.1.3.6.3.1.2
Syntax: Octet string
Read-write
Contains a list of port indices that are members of a trunk group. Each port index is a 32-bit integer in big endian order. The first interface/port index must be the index of the primary port.
snMSTrunkIfType
fdry.1.1.3.6.3.1.3
Syntax: Integer
Read-write
Specifies if the ports are connected to a switch or a server:
• switch(1)
• server(2)
Name, OID, and Syntax Access Description
11-16 © 2008 Foundry Networks, Inc. April 2008
Interfaces
Link Aggregation Group (LAG) TableBeginning with release 03.7.00 of the Multi-Service IronWare software for XMR/MLX routers, the snMSTrunkIfTable has replaced with the snLinkAggregationGroupIfIndex as described in the following table.
snMSTrunkIfRowStatus
fdry.1.1.3.6.3.1.4
Syntax: Integer
Read-write
Creates, deletes, or modifies an entry in this table:
• invalid(1)
• valid(2)
• delete(3)
• create(4)
• modify(5)
Name, OID, and Syntax Access Description
snLinkAggregationGroupTable
fdry.1.1.3.29.2.1
None The snLinkAggregation table.
snLinkAggregationGroupEntry
fdry.1.1.3.29.2.1.1
None An entry of the Link Aggregation table,
snLinkAggregationGroupName
fdry.1.1.3.29.2.1.1.1
Syntax: Display string (Size(1..255))
None Displays the name of a LinkAggregationGroup.
snLinkAggregationGroupType
fdry.1.1.3.29.2.1.1.2
Syntax: Integer
Read-create
Displays the LinkAggregationGroup type.
snLinkAggregationGroupAdminStatus
fdry.1.1.3.29.2.1.1.3
Syntax: Integer
Read-create
Displays the desired deployed state of this LinkAggregationGroup entry.
NOTE: This is not the operational status. Refer to ifTable for the operational status.
• deploy(1)- deploy the LAG and set to LACP active if dynamic LAG.
• deployPassive(2)-deploy the LAG and set to LACP passive if dynamic LAG.
• undeploy(3)-undeploy the LAG if no more than 2 ports are enabled.
• undeployForced(4)-undeploy the LAG regardless number of ports enabled.
NOTE: undeployForced(4)is a write-only value. In particular, a row cannot be deployed until the corresponding instances of snLinkAggregationGroupIfList has been set.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 11-17
Foundry Management Information Base Reference
Packet Port Information TableFoundry’s Packet over SONET (POS) is the serial transmission of data over SONET frames through the use of Point-to-Point Protocol (PPP). The Foundry POS modules allow direct connection to interfaces within SONET. POS is a transport technology that encapsulates packet data such as an IP datagram directly into SONET.
snLinkAggregationGroupIfList
vfdry.1.1.3.29.2.1.1.4
Syntax: Octet string
Read-create
Displays a list of interface indices which are the port membership of a trunk group. Each interface index is a 16-bit integer in big endian order.
snLinkAggregationGroupPrimaryPort
fdry.1.1.3.29.2.1.1.5
Syntax: InterfaceIndex
Read-create
DIsplays the primary port for the Link Aggregation Group. This must be set before deploying the LinkAggregateGroup unless this is a keepalive LinkAggregateGroup.
snLinkAggregationGroupTrunkType
fdry.1.1.3.29.2.1.1.6
Syntax: Integer
Read-create
Displays the trunk connection type which specifies what the scheme of load-sharing among the trunk ports is.
snLinkAggregationGroupTrunkThreshold
fdry.1.1.3.29.2.1.1.7
Syntax: Unsigned32
Read-create
DIsplays the number of UP ports needed to keep the trunk up.
snLinkAggregationGroupLacpTimeout
fdry.1.1.3.29.2.1.1.8
Syntax: Integer
Read-create
Displays the LACP timeout value this LACP LAG will use. Applicable for dynamic and keepalive LAG only.
snLinkAggregationGroupIfIndex
fdry.1.1.3.29.2.1.1.9
Syntax: InterfaceIndex
Read only DIsplays the InterfaceIndex which represents the LinkAggregateGroup entry in the ifTable and ifXTable.
snLinkAggregationGroupPortCount
fdry.1.1.3.29.2.1.1.10
Syntax: Unsigned32
Read only Displays the number of member ports belong to this LAG.
snLinkAggregationGroupRowStatus
fdry.1.1.3.29.2.1.1.11
Syntax: RowSts
Read-create
Displays the status of this conceptual row.
NOTE: createAndWait(5) is not supported.
To create a row in this table, a manager must set this object to createAndGo(4) together with the setting of snLinkAggregation-GroupType. After that the row status becomes active(1) regard-less the LAG entry is deployed or not. To deploy the LAG entry, set the corresponding instance of snLinkAggregationGroupAdminStatus to deployActive or deployPassive.
Name, OID, and Syntax Access Description
11-18 © 2008 Foundry Networks, Inc. April 2008
Interfaces
The POS modules are available on NetIron Internet Backbone routers and BigIron Layer 3 Switches with redundant management modules.
The following table presents information about POS ports.
Name, OID, and Syntax Access Description
snPOSInfoTable
fdry.1.2.14.1.1
None POS Port Information table.
snPOSInfoEntry
fdry.1.2.14.1.1.1
None An entry in the POS Port Information table.
snPOSInfoPortNum
fdry.1.2.14.1.1.1.1
Syntax: Integer
Read only The chassis slot and port number.
• Bit 0 to bit 7 – port number.
• Bit 8 to bit 11 – slot number (for chassis devices only).
snPOSIfIndex
fdry.1.2.14.1.1.1.2
Syntax: Integer
Read only Identifies the instance of the ifIndex object as defined in RFC 1213 and RFC 1573.
snPOSDescr
fdry.1.2.14.1.1.1.3
Syntax: Display string
Read only Description of the chassis slot and port.
snPOSName
fdry.1.2.14.1.1.1.4
Syntax: Display string
Read-write
Name of the port.
Valid values: Up to 255 characters.
snPOSInfoSpeed
fdry.1.2.14.1.1.1.5
Syntax: Integer
Read-write
The bandwidth of the interface, which can be one of the following:
• s155000(1) bps
• s622000(2) bps
• other(3)
• s2488000(4) bps
snPOSInfoAdminStatus
fdry.1.2.14.1.1.1.6
Syntax: Integer
Read-write
The desired state of the interface, which can be one of the following:
• up(1) – The port is ready to pass packets.
• down(2) – The port is not ready to pass packets.
• testing(3) – The port is in test mode. No packets can be passed.
April 2008 © 2008 Foundry Networks, Inc. 11-19
Foundry Management Information Base Reference
snPOSInfoLinkStatus
fdry.1.2.14.1.1.1.7
Syntax: Integer
Read only The current operational state of the link, which can be one of the following:
• up(1) – The port is ready to pass packets.
• down(2) – The port is not ready to pass packets.
• testing(3) – The port is in test mode. No packets can be passed.
snPOSInfoClock
fdry.1.2.14.1.1.1.8
Syntax: Integer
Read-write
The clock source, which can be one of the following:
• internal(1) – The interface is using the clock on the POS module.
• line(2) – The interface is using the clock source supplied on the network.
Default: internal(1)
snPOSInfoLoopBack
fdry.1.2.14.1.1.1.9
Syntax: Integer
Read-write
The loopback state of the interface. The loopback state can be one of the following:
• line(1) – The loopback path consists of both this POS interface and the POS interface at the remote end of the link. Use this mode to check the POS interface along the link.
• internal(2) – The loopback path consists only of the POS circuitry on this interface. Use this mode to check the POS circuitry.
• none(3) – The interface is not operating in loopback mode.
snPOSInfoScrambleATM
fdry.1.2.14.1.1.1.10
Syntax: Integer
Read-write
The state of the ATM scramble mode, which can be one of the following:
• disabled(0) – Scrambling is disabled.
• enabled(1) – Scrambling of the Synchronous Payload Envelope (SPE) is enabled. Data in the SONET packet is scrambled for security.
Default: disabled(0)
snPOSInfoFraming
fdry.1.2.14.1.1.1.11
Syntax: Integer
Read-write
The frame type used on the interface. The frame type can be one of the following:
• sonet(1) – Synchronous Optical Network.
• sdh(2) – Synchronous Digital Hierarchy.
Default: sonet(1)
snPOSInfoCRC
fdry.1.2.14.1.1.1.12
Syntax: Integer
Read-write
The length of the CRC field in packets transmitted on the interface. The length can be one of the following:
• crc32bits(1) – The field is 8 bits long.
• crc16bits(2) – The field is 16 bits long.
Default: crc32bits(1)
Name, OID, and Syntax Access Description
11-20 © 2008 Foundry Networks, Inc. April 2008
Interfaces
snPOSInfoKeepAlive
fdry.1.2.14.1.1.1.13
Syntax: Integer
Read-write
The time interval when keepalive messages are sent.
Default: 10 seconds
snPOSInfoFlagC2
fdry.1.2.14.1.1.1.14
Syntax: Integer
Read-write
The value of the c2 flag in the SONET headers of packets transmitted by the interface. The c2 flag identifies the payload type of the packets transmitted on this interface.
Default: 0xcf, which means that the payload is SONET or SDH.
snPOSInfoFlagJ0
fdry.1.2.14.1.1.1.15
Syntax: Integer
Read-write
The value of the j0 flag in the SONET headers of packets transmitted by the interface. This flag sets the trace byte, which is used to trace the origin of an STS-1 frame on a SONET network.
Default: 0xcc
snPOSInfoFlagH1
fdry.1.2.14.1.1.1.16
Syntax: Integer
Read-write
The value of the h1 flag in the SONET headers of packets transmitted by the interface. This flag sets the H1 pointer, which is used to indicate where the SPE (Synchronous Payload Envelope) starts within the packet. The SPE contains the packet’s payload:
• 0x00 – The pointer for SONET frames.
• 0x02 – The pointer for SDH frames.
Default: 0x00
snPOSStatsInFrames
fdry.1.2.14.1.1.1.17
Syntax: Counter
Read only The total number of packets received on the interface.
snPOSStatsOutFrames
fdry.1.2.14.1.1.1.18
Syntax: Counter
Read only The total number of packets transmitted out of the interface.
snPOSStatsAlignErrors
fdry.1.2.14.1.1.1.19
Syntax: Counter
Read only The number of packets that contained frame alignment errors.
snPOSStatsFCSErrors
fdry.1.2.14.1.1.1.20
Syntax: Counter
Read only The number of packets that contained Frame Check Sequence errors.
snPOSStatsFrameTooLongs
fdry.1.2.14.1.1.1.21
Syntax: Counter
Read only The number of packets that were longer than the configured MTU.
snPOSStatsFrameTooShorts
fdry.1.2.14.1.1.1.22
Syntax: Counter
Read only The number of packets that were shorter than the minimum valid length.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 11-21
Foundry Management Information Base Reference
snPOSStatsInDiscard
fdry.1.2.14.1.1.1.23
Syntax: Counter
Read only The number of inbound packets that were discarded to prevent them from being delivered to a higher-layer protocol, even though no errors had been detected. For example, a packet may be discarded to free up buffer space.
snPOSStatsOutDiscard
fdry.1.2.14.1.1.1.24
Syntax: Counter
Read only The number of outbound packets that were discarded to prevent them from being transmitted, even though they contain no errors. For example, a packet may be discarded to free up buffer space.
snPOSInOctets
fdry.1.2.14.1.1.1.25
Syntax: Octet string
Read only The total number of packets in octets that were received on the interface, including framing characters.
This object is a 64-bit counter of the ifInOctets object, defined in RFC 1213. The octet string is in big-endian byte order.
snPOSOutOctets
fdry.1.2.14.1.1.1.26
Syntax: Octet string
Read only The total number of packets in octets that were transmitted out of the interface, including framing characters.
This object is a 64-bit counter of the ifOutOctets object, defined in RFC 1213. The octet string is in big-endian byte order.
snPOSStatsInBitsPerSec
fdry.1.2.14.1.1.1.27
Syntax: Gauge
Read only The number of bits per second received on the interface over a five-minute interval.
snPOSStatsOutBitsPerSec
fdry.1.2.14.1.1.1.28
Syntax: Gauge
Read only The number of bits per second transmitted out of the interface over a five-minute interval.
snPOSStatsInPktsPerSec
fdry.1.2.14.1.1.1.29
Syntax: Gauge
Read only The number of packets per second received on the interface over a five-minute interval.
snPOSStatsOutPktsPerSec
fdry.1.2.14.1.1.1.30
Syntax: Gauge
Read only The number of packets per second transmitted out of the interface over a five minute interval.
snPOSStatsInUtilization
fdry.1.2.14.1.1.1.31
Syntax: Integer
Read only The network utilization by incoming traffic in hundredths of a percent over a five-minute interval.
NOTE: This object is not supported.
snPOSStatsOutUtilization
fdry.1.2.14.1.1.1.32
Syntax: Integer
Read only The network utilization by outgoing traffic in hundredths of a percent over a five-minute interval.
NOTE: This object is not supported.
snPOSTagType
fdry.1.2.14.1.1.1.33
Syntax: Integer
Read only Shows whether or not the port has a VLAN tag:
• tagged(1) – The port has a VLAN tag. This port can have multiple VLANs.
• untagged(2) – The port is not tagged.
Name, OID, and Syntax Access Description
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Interfaces
POS Alarms and Error ConditionsThe following MIB objects belong to the snPOSInfoTable. They allow you to collect errors for POS SONET links. SONET equipment detects alarms and error conditions from the three layers of the SONET protocol: section, line, and path. Other devices on the network are notified of these events. Use the MIB objects below to determine if alarms or error conditions have been reported for POS. The information is also available when you enter the show controllers pos CLI command.
Name, OID, and Syntax Access Description
snPOSStatsB1
fdry.1.2.14.1.1.1.34
Syntax: Counter
Read only Shows the number of received frames that have parity errors at the section layer of the SONET link.
snPOSStatsB2
fdry.1.2.14.1.1.1.35
Syntax: Counter
Read only Shows the number of received frames that have parity errors at the line layer of the SONET link.
snPOSStatsB3
fdry.1.2.14.1.1.1.36
Syntax: Counter
Read only Shows the number of received frames that have parity errors at the path layer of the SONET link.
snPOSStatsAIS
fdry.1.2.14.1.1.1.37
Syntax: Counter
Read only Shows the number of Alarm Indicator Signals (AIS) that were received by the interface.
snPOSStatsRDI
fdry.1.2.14.1.1.1.38
Syntax: Counter
Read only Shows the number of Remote Defect Indicator (RDI) signals that were received by the interface.
snPOSStatsLOP
fdry.1.2.14.1.1.1.39
Syntax: Counter
Read only Indicates a loss of pointer (LOP) that results from an invalid path pointer or if an excessive number of new data flag have been enabled.
snPOSStatsLOF
fdry.1.2.14.1.1.1.40
Syntax: Counter
Read only Shows how many times the interface experienced out of frame alignment problems, which is also called a loss of frame (LOF) condition.
snPOSStatsLOS
fdry.1.2.14.1.1.1.41
Syntax: Counter
Read only Indicates the number of times the interface experienced a loss of signal (LOS). With LOS, incoming signals are all zeros during a 100 microsecond period.
April 2008 © 2008 Foundry Networks, Inc. 11-23
Foundry Management Information Base Reference
Loopback Interface Configuration TableThe following objects apply to all Foundry devices, except ServerIron products.
Name, OID, and Syntax Access Description
snLoopbackIntfConfigTable
fdry.1.2.13.1
None The Loopback Interface Configuration table.
snLoopbackIntfConfigEntry
fdry.1.2.13.1.1
None An entry in the Loopback Interface Configuration table.
snLoopbackIntfConfigPortIndex
fdry.1.2.13.1.1.1
Syntax: Integer
Read only Shows the port index for loopback interface configuration entry. There can be up to eight entries in this table.
snLoopbackIntfMode
fdry.1.2.13.1.1.2
Syntax: Integer
Read-write
Indicates if loopback interface is enabled:
• disabled(0)
• enabled(1)
snLoopbackIntfRowStatus
fdry.1.2.13.1.1.3
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
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Interfaces
Port STP Configuration GroupsThe Spanning Tree Protocol (STP) eliminates Layer 2 loops in networks, by selectively blocking some ports and allowing other ports to forward traffic, based on global (bridge) and local (port) parameters you can configure.
The tables in this section contain information about the ports on which STP is enabled.
Port STP Configuration Groups (snPortStpTable)This table applies to all Foundry devices, except the FastIron X-Series devices, BigIron MG8, and NetIron 40G. These devices use the snIfStpTable. Refer to the “Port STP Configuration Group (snIfStpTable)” on page 11-28
Name, OID, and Syntax Access Description
snPortStpTable
fdry.1.1.3.5.1
None A specific snPortStpTable consists of a number of switch ports. This table only exists if “snVLanByPortTable” on page 15-1 exists and “snVLanByPortStpMode” on page 15-2 is enabled for each VLAN.
snPortStpEntry
fdry.1.1.3.5.1.1
None An entry in this table shows information about the configuration of a specified port.
An SNMP SET PDU for a row in this table requires the entire sequence of the MIB objects in each snPortStpEntry to be stored in one PDU. Otherwise, GENERR return-value will be returned.
snPortStpVLanId
fdry.1.1.3.5.1.1.1
Syntax: Integer
Read only Shows the VLAN ID of the VLAN switch community.
Valid values: 1 – 65535.
snPortStpPortNum
fdry.1.1.3.5.1.1.2
Syntax: Integer
Read only Shows the port number of the Switch:
• Bit 0 to bit 7 – Port number.
• Bit 8 to bit 11 – Slot number (slot for chassis only).
snPortStpPortPriority
fdry.1.1.3.5.1.1.3
Syntax: Integer
Read-write
Shows the value of the priority field, which is contained in the first (in network byte order) octet of the Port ID. The second octet of the Port ID is given by the value of dot1dStpPort. The two octets combine to form the identity of the root bridge in a spanning tree (instance of STP). The bridge with the lowest value has the highest priority and is the root.
Valid values: 8 – 255
April 2008 © 2008 Foundry Networks, Inc. 11-25
Foundry Management Information Base Reference
snPortStpPathCost
fdry.1.1.3.5.1.1.4
Syntax: Integer
Read-write
Shows the value of the dot1dStpPortPathCost, which is the port’s path cost to reach the root bridge. When selecting among multiple links to the root bridge, STP chooses the link with the lowest path cost and blocks the other paths.
IEEE 802.1D-1990 recommends that the default value of this parameter be in inverse proportion to the speed of the attached LAN.
Writing a value of zero to this object sets the path cost to a default value which automatically changes according to port speed.
Reading a value of zero indicates an unknown path cost because the port speed cannot be determined due to the speed auto sense that is currently in progress.
Each port type has its own default STP path cost.
• 10 Mbps – 100
• 100 Mbps – 19
• Gigabit – 4
Valid values: 0 – 65535
NOTE: Over the value of 65535, this MIB stays at the upper value and the user should access which has a bigger upper range value.
snPortStpOperState
fdry.1.1.3.5.1.1.5
Syntax: Integer
Read only Indicates if the port STP entry is activated and is in running mode.
• notActivated(0)
• activated(1)
Default: notActivated(0)
snPortStpPortEnable
fdry.1.1.3.5.1.1.6
Syntax: Integer
None Indicates whether or not the port is enabled:
• disabled(0)
• enabled(1)
snPortStpPortForwardTransitions
fdry.1.1.3.5.1.1.7
Syntax: Integer
None Shows the number of times this port has transitional from the Learning state to the Forwarding state.
Name, OID, and Syntax Access Description
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Interfaces
snPortStpPortState
fdry.1.1.3.5.1.1.8
Syntax: Integer
Read only Shows the port’s current state as defined by application of the Spanning Tree Protocol. This state controls what action a port takes when it receives a frame.
• disabled(1) – The port is not participating in STP. This can occur when the port is disconnected or STP is disabled on the port.
• blocking(2) – STP has blocked Layer 2 traffic on this port to prevent a loop. The device or VLAN can reach the root bridge using another port, whose state is forwarding(5). When a port is in this state, the port does not transmit or receive user frames, but the port does continue to receive STP BPDUs.
• listening(3) – STP is responding to a topology change and this port is listening for a BPDU from neighboring bridge(s) in order to determine the new topology. No user frames are transmitted or received during this state.
• learning(4) – The port has passed the listening state and will change to the blocking or forwarding state, depending on the results of STP’s reconvergence. The port does not transmit or receive user frames during this state. However, the device can learn the MAC addresses of frames that the port receives during this state and make corresponding entries in the MAC table.
• forwarding(5) – STP is allowing the port to send and receive frames.
• broken(6) – Ports that are malfunctioning are placed into this state by the bridge.
snPortStpPortDesignatedCost
fdry.1.1.3.5.1.1.9
Syntax: Integer
Read only The cost to the root bridge as advertised by the designated bridge that is connected to this port. If the designated bridge is the root bridge itself, then the cost is 0. The identity of the designated bridge is shown in the Design Bridge field.
This value is compared to the Root Path Cost field in the receivedbridge PDUs.
snPortStpPortDesignatedRoot
fdry.1.1.3.5.1.1.10
Syntax: BridgeId
Read only The root bridge as recognized on this port. The value is the same as the root bridge ID listed in the Root ID field.
Shows the unique ID of the root bridge. The root bridge is recorded as the root in the configuration BPDUs, which are transmitted by the designated bridge for the segment to which the port is attached.
snPortStpPortDesignatedBridge
fdry.1.1.3.5.1.1.11
Syntax: BridgeId
Read only Shows the ID of the designated bridge. The designated bridge is the device that connects the network segment to the root bridge.
snPortStpPortDesignatedPort
fdry.1.1.3.5.1.1.12
Syntax: Octet string
Read only Shows the ID of the port on the designated bridge that connects to the root bridge on the network.
This object has two octets.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 11-27
Foundry Management Information Base Reference
Port STP Configuration Group (snIfStpTable)The snIfStpTable contains information about ports where STP is enabled on FastIron X-Series devices, BigIron MG8, and NetIron 40G. Other Foundry devices use the snPortStpTable (refer to “Port STP Configuration Groups (snPortStpTable)” on page 11-25).
Name, OID, and Syntax Access Description
snIfStpTable
fdry.1.1.3.5.2
None A specific snIfStpTable consists of a number of switch ports. This table only exists if “snVLanByPortTable” on page 15-1 exists and “snVLanByPortStpMode” on page 15-2 is enabled for each VLAN.
snIfStpEntry
fdry.1.1.3.5.2.1
None An entry in this table shows information about the configuration of a specified port.
An SNMP SET PDU for a row in this table requires the entire sequence of the MIB objects in each snIfStpEntry to be stored in one PDU. Otherwise, GENERR return-value will be returned.
snIfStpVLanId
fdry.1.1.3.5.2.1.1
Syntax: Integer
Read only Shows the VLAN ID of the VLAN switch community.
Valid values: 1 – 65535.
snIfStpPortNum
fdry.1.1.3.5.2.1.2
Syntax: Integer
Read only Shows the port number of the Switch:
• Bit 0 to bit 7 – Port number.
• Bit 8 to bit 11 – Slot number (slot for chassis only).
snIfStpPortPriority
fdry.1.1.3.5.2.1.3
Syntax: Integer
Read-write
Shows the value of the priority field, which is contained in the first (in network byte order) octet of the Port ID. The second octet of the Port ID is given by the value of dot1dStpPort. The two octets combine to form the identity of the root bridge in a spanning tree (instance of STP or RSTP). The bridge with the lowest value has the highest priority and is the root.
Valid values: 8 – 255
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Interfaces
snIfStpPathCost
fdry.1.1.3.5.2.1.4
Syntax: Integer
NOTE: On FastIron SuperX software release 02.2.01 and later, this object was replaced by “snIfStpCfgPathCost”
Read-write
Shows the value of the dot1dStpPortPathCost, which is the port’s path cost to reach the root bridge. When selecting among multiple links to the root bridge, STP or RSTP chooses the link with the lowest path cost and blocks the other paths.
IEEE 802.1D-1990 recommends that the default value of this parameter be in inverse proportion to the speed of the attached LAN.
Writing a value of zero to this object sets the path cost to a default value which automatically changes according to port speed.
Reading a value of zero indicates an unknown path cost because the port speed cannot be determined due to the speed auto sense that is currently in progress.
Each port type has its own default STP path cost.
• 10 Mbps – 100
• 100 Mbps – 19
• Gigabit – 4
Valid values: 0 – 65535
snIfStpCfgPathCost
fdry.1.1.3.5.2.1.4
Syntax: Integer
NOTE: On FastIron SuperX software release 02.2.01 and later, this object replaces by “snIfStpPathCost”
Read-write
This MIB object replaces the MIB object snIfStpPathCost.
Shows the value of the dot1dStpPortPathCost, which is the port’s path cost to reach the root bridge. When selecting among multiple links to the root bridge, STP or RSTP chooses the link with the lowest path cost and blocks the other paths.
IEEE 802.1D-1990 recommends that the default value of this parameter be in inverse proportion to the speed of the attached LAN.
Writing a value of zero to this object sets the path cost to a default value which automatically changes according to port speed.
Reading a value of zero indicates an unknown path cost because the port speed cannot be determined due to the speed auto sense that is currently in progress.
Each port type has its own default STP or RSTP path cost.
• 10 Mbps – 100
• 100 Mbps – 19
• Gigabit – 4
Valid values: 0 – 65535
snIfStpOperState
fdry.1.1.3.5.2.1.5
Syntax: Integer
Read only Indicates if the port STP entry is activated and is in running mode.
• notActivated(0)
• activated(1)
Default: notActivated(0)
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 11-29
Foundry Management Information Base Reference
snIfStpPortState
fdry.1.1.3.5.2.1.8
Syntax: Integer
Read only Shows the port’s current state as defined by application of the Spanning Tree Protocol. This state controls what action a port takes when it receives a frame.
• disabled(1) – The port is not participating in STP. This can occur when the port is disconnected or STP is disabled on the port.
• blocking(2) – STP has blocked Layer 2 traffic on this port to prevent a loop. The device or VLAN can reach the root bridge using another port, whose state is forwarding(5). When a port is in this state, the port does not transmit or receive user frames, but the port does continue to receive STP BPDUs.
• listening(3) – STP is responding to a topology change and this port is listening for a BPDU from neighboring bridge(s) in order to determine the new topology. No user frames are transmitted or received during this state.
• learning(4) – The port has passed the listening state and will change to the blocking or forwarding state, depending on the results of STP’s reconvergence. The port does not transmit or receive user frames during this state. However, the device can learn the MAC addresses of frames that the port receives during this state and make corresponding entries in the MAC table.
• forwarding(5) – STP is allowing the port to send and receive frames.
• broken(6) – Ports that are malfunctioning are placed into this state by the bridge.
• preforwarding(7) – The port is in an RSTP pre-forwarding mode.
snIfStpPortDesignatedCost
fdry.1.1.3.5.2.1.9
Syntax: Integer
Read only The cost to the root bridge as advertised by the designated bridge that is connected to this port. If the designated bridge is the root bridge itself, then the cost is 0. The identity of the designated bridge is shown in the Design Bridge field.
This value is compared to the Root Path Cost field in the receivedbridge PDUs.
snIfStpPortDesignatedRoot
fdry.1.1.3.5.2.1.10
Syntax: BridgeId
Read only The root bridge as recognized on this port. The value is the same as the root bridge ID listed in the Root ID field.
Shows the unique ID of the root bridge. The root bridge is recorded as the root in the configuration BPDUs, which are transmitted by the designated bridge for the segment to which the port is attached.
snIfStpPortDesignatedBridge
fdry.1.1.3.5.2.1.11
Syntax: BridgeId
Read only Shows the ID of the designated bridge. The designated bridge is the device that connects the network segment to the root bridge.
Name, OID, and Syntax Access Description
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Interfaces
snIfStpPortDesignatedPort
fdry.1.1.3.5.2.1.12
Syntax: Octet string
Read only Shows the ID of the port on the designated bridge that connects to the root bridge on the network.
This object has two octets.
snIfStpPortAdminRstp
fdry.1.1.3.5.2.1.13
Syntax: Integer
Read-write
Enables or disables RSTP on a port that is a member of a VLAN:
• true(1) – RSTP is enabled
• false(2) – RSTP is not enabled; therefore, this object is not writable.
snIfStpPortProtocolMigration
fdry.1.1.3.5.2.1.14
Syntax: Integer
Read-write
This value can be one of the following:
• true(1) – The port is operating in RSTP version 2 mode. It will transmit RSTP BPDUs.
• false(2) – The port is not operating in RSTP version 2 mode.
snIfStpPortAdminEdgePort
fdry.1.1.3.5.2.1.15
Syntax: Integer
Read-write
Indicates if the port is an edge or non-edge port:
• true(1) – Assumed this port is an edge-port
• false(2) – Assume this port is a non-edge-port
snIfStpPortAdminPointToPoint
fdry.1.1.3.5.2.1.16
Syntax: Integer
Read-write
Indicates the administrative point-to-point status of the LAN segment attached to this port.
• true(1) – This port should always be treated as if it is connected to a point-to-point link.
• false(2) – This port should be treated as having a shared media connection.
snIfStpPortRole
fdry.1.1.3.5.2.1.18
Syntax: Integer
Read-only Shows the STP/RSTP port role.
• For STP, the port role will be root if the port is a root port; otherwise, it will be a designated port.
• For RSTP, port role is equivalent to the port role display from "show 802-1w vlan <vlan-id>" command.
NOTE: This object was implemented in IronWare release 03.5.00 for the NetIron XMR/MLX and Ironware release 02.5.00 for the BigIron RX.
snIfStpBPDUTransmitted
fdry.1.1.3.5.2.1.19
Syntax: Counter
Read-only Shows the STP/RSTP bridge protocol unit transmitted counter.
NOTE: This object was implemented in IronWare release 03.5.00 for the NetIron XMR/MLX and Ironware release 02.5.00 for the BigIron RX.
snIfStpBPDUReceived
fdry.1.1.3.5.2.1.20
Syntax: Counter
Read-only Shows the STP/RSTP bridge protocol unit received counter.
NOTE: This object was implemented in IronWare release 03.5.00 for the NetIron XMR/MLX and Ironware release 02.5.00 for the BigIron RX.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 11-31
Foundry Management Information Base Reference
Port Monitor TableThe Port Monitor Table shows the status of port monitoring on an interface.
snIfRstpConfigBPDUReceived
fdry.1.1.3.5.2.1.21
Syntax: Counter
Read-only Shows the STP/RSTP bridge protocol unit received counter.
NOTE: This object was implemented in IronWare release 03.5.00 for the NetIron XMR/MLX and Ironware release 02.5.00 for the BigIron RX.
snIfRstpTCNBPDUReceived
fdry.1.1.3.5.2.1.22
Syntax: Counter
Read-only Shows the RSTP configuration bridge protocol unit received counter.
NOTE: This object was implemented in IronWare release 03.5.00 for the NetIron XMR/MLX and Ironware release 02.5.00 for the BigIron RX.
snIfRstpConfigBPDUTransmitted
fdry.1.1.3.5.2.1.23
Syntax: Counter
Read-only Shows the RSTP configuration bridge protocol unit transmitted counter.
NOTE: This object was implemented in IronWare release 03.5.00 for the NetIron XMR/MLX and Ironware release 02.5.00 for the BigIron RX.
snIfRstpTCNBPDUTransmitted
fdry.1.1.3.5.2.1.24
Syntax: Counter
Read-only Shows the RSTP topology change notification bridge protocol unit transmitted counter.
NOTE: This object was implemented in IronWare release 03.5.00 for the NetIron XMR/MLX and Ironware release 02.5.00 for the BigIron RX.
Name, OID, and Syntax Access Description
snPortMonitorTable
fdry.1.1.3.25.1.
N/A The Port Monitor Table
snPortMonitorEntry
fdry.1.1.3.25.1.1.
N/A An entry in the Port Monitor Table
snPortMonitorIfIndex
fdry.1.1.3.25.1.1.1
N/A ID of the port in the table
Name, OID, and Syntax Access Description
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Interfaces
snPortMonitorMirrorList
fdry.1.1.3.25.1.1.2
Syntax: Display string
Read-write Lists the monitoring status of each port.
The values in this object are space delimited. They consist of a sequence of a port’s ifIndex followed by the port’s monitoring mode. Port monitoring mode can be one of the following:
• 0 – Monitoring is off
• 1 – The port will monitor input traffic
• 2 – The port will monitor output traffic
• 3 – The port will monitor both input and output traffic
For example, you may see the following values:
65 2 66 1
“65” may represent port 2/1 and “66” port 2/2.
The entry means that port 2/1 is monitoring output traffic. Port 2/2 will monitor input traffic.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 11-33
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11-34 © 2008 Foundry Networks, Inc. April 2008
Chapter 12Filtering Traffic
The objects in this chapter present filters that can be used to control incoming or outgoing traffic. They include the following:
• “MAC Filters” on page 12-1
• “ACLs” on page 12-6
Refer to the Foundry Switch and Router Installation and Basic Configuration Guide for details on the features discussed in this chapter.
MAC FiltersMAC layer filtering enables you to build access lists based on MAC layer headers in the Ethernet/IEEE 802.3 frame. You can filter on the source and destination MAC addresses as well as other information such as the EtherType, LLC1 DSAP or SSAP numbers, and a SNAP EtherType. The filters apply to incoming traffic only.
For more information on MAC Layer filtering, refer to the Foundry Switch and Router Installation and Basic Configuration Guide and the Foundry Enterprise Configuration and Management Guide.
NOTE: MAC Filter MIB objects are not supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
Objects available for MAC filtering are presented in the following sections:
• “MAC Filter Table” on page 12-2
• “MAC Filter Port Access Tables” on page 12-3
• “Forwarding Database Static Table Information” on page 12-4
April 2008 © 2008 Foundry Networks, Inc. 12-1
Foundry Management Information Base Reference
MAC Filter TableThe objects in this table provide information on MAC filters.
Name, OID, and Syntax Access Description
snMacFilterTable
fdry.1.1.3.10.1
None The MAC filter table.
snMacFilterEntry
fdry.1.1.3.10.1.1
None An entry in the MAC filter table.
snMacFilterIndex
fdry.1.1.3.10.1.1.1
Syntax: Integer
Read only The table index for a filter entry.
snMacFilterAction
fdry.1.1.3.10.1.1.2
Syntax: Integer
Read-write
Indicates what action is to be taken if the MAC packet matches this filter:
• deny(0)
• permit(1)
snMacFilterSourceMac
fdry.1.1.3.10.1.1.3
Syntax: MAC address
Read-write
Shows the source MAC address.
snMacFilterSourceMask
fdry.1.1.3.10.1.1.4
Syntax: MAC address
Read-write
Shows the source MAC subnet mask.
snMacFilterDestMac
fdry.1.1.3.10.1.1.5
Syntax: MAC address
Read-write
Shows the destination MAC address.
snMacFilterDestMask
fdry.1.1.3.10.1.1.6
Syntax: MAC address
Read-write
Shows the destination MAC subnet mask.
snMacFilterOperator
fdry.1.1.3.10.1.1.7
Syntax: Integer
Read-write
Indicates the type of comparison to perform:
• equal(0)
• notEqual(1)
• less(2)
• greater(3)
12-2 © 2008 Foundry Networks, Inc. April 2008
Filtering Traffic
MAC Filter Port Access TablesThe tables show information about the MAC Filter Port Access.
snMacFilterFrameType
fdry.1.1.3.10.1.1.8
Syntax: Integer
Read-write
Indicates the frame type:
• notUsed(0)
• ethernet(1)
• LLC(2)
• snap(3)
snMacFilterFrameTypeNum
fdry.1.1.3.10.1.1.9
Syntax: Integer
Read-write
Shows the frame type number.
Valid values: 0 – 65535, where 0 means that this object is not applicable.
snMacFilterRowStatus
fdry.1.1.3.10.1.1.10
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snMacFilterPortAccessTable
fdry.1.1.3.10.2
None MAC Filter Port Access table.
snMacFilterPortAccessEntry
fdry.1.1.3.10.2.1
None An entry in the MAC Filter Port Access Table.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 12-3
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Forwarding Database Static Table InformationThis table contains Forwarding Database information for each station known to the system. There is one entry per station. .
snMacFilterPortAccessPortIndex
fdry.1.1.3.10.2.1.1
Syntax: Integer
Read only The port index.
For FastIron and NetIron products, port index value is from 1 – 42.
For BigIron products, port index is an encoded number:
• Bit 0 to bit 7– Port number
• Bit 8 to bit 11 – Slot number
For virtual router interfaces:
• 15 – Slot number
• 1 to 60 – Virtual router port, which is the port number.
Therefore, port index value for BigIron is from 257 to 3900.
snMacFilterPortAccessFilters
fdry.1.1.3.10.2.1.2
Syntax: Octet string
Read-write
Shows the filter numbers of the ports. The first octet correspond to the first filter number, the second octet, to the second filter number, and so on.
snMacFilterPortAccessRowStatus
fdry.1.1.3.10.2.1.3
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snFdbTable
fdry.1.1.3.4.1
None The Forwarding Database Static Table.
snFdbEntry
fdry.1.1.3.4.1.1
None Each entry represents the information of a static MAC station.
Name, OID, and Syntax Access Description
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Filtering Traffic
snFdbStationIndex
fdry.1.1.3.4.1.1.1
Syntax: Integer
Read only Shows the FDB Station index to the Fdb Station Table.
snFdbStationAddr
fdry.1.1.3.4.1.1.2
Syntax: Integer
Read-write
Shows the snFdbs physical address. The physical address represents a MAC Station.
snFdbStationPort
fdry.1.1.3.4.1.1.3
Syntax: Integer
Read-write
Indicates the station slot/port number:
• Bit 0 to bit 7 – Port number
• Bit 8 to bit 11 – Slot number (slot for chassis only).
snFdbVLanId
fdry.1.1.3.4.1.1.4
Syntax: Integer
Read-write
Indicates the Station VLAN ID.
snFdbStationQos
fdry.1.1.3.4.1.1.5
Syntax: Integer
Read-write
Shows the quality of service values for the station:
For stackable stations, the values can be:
• low(0) – low priority
• high(1) – high priority.
For chassis stations, the values can be
• level0(0)
• level1(1)
• level2(2)
• level3(3)
• level4(4)
• level5(5)
• level6(6)
• level7(7)
snFdbStationType
fdry.1.1.3.4.1.1.6
Syntax: Integer
Read-write
Show the station type:
• notSupported(0) – a read value only: this product does not support multilayer Switching.
• host(1) – any MAC station.
• router(2) – a router-typed station.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 12-5
Foundry Management Information Base Reference
ACLsAccess Control Lists (ACL) can be used to permit or deny packets from entering or leaving a Foundry device. For additional information on ACLs in Foundry devices, refer to the Foundry Enterprise Configuration and Management Guide.
NOTE: The ACL Port MIBs are supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
This chapter contains the following sections:
• “Global ACL” on page 12-7
• “IPv4 ACL Table” on page 12-7
• “ACL Bind to Port Table (snAgAclBindToPortTable)” on page 12-15
snFdbRowStatus
fdry.1.1.3.4.1.1.7
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snFdbStationIfindex
fdry.1.1.3.4.1.1.8
Syntax: InterfaceIndex
Read-write
Station interface index number.
Name, OID, and Syntax Access Description
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Filtering Traffic
Global ACLThe following objects are global to ACLs.
IPv4 ACL TableThe IPv4 ACL Table contains the ACLs defined for the device. The snAgAclGblCurRowIndex object determines the number of ACLs that can be added to this table.
Use this table to create ACLs. Apply the ACLs to interfaces using the snAgAclBindToPortTable.
NOTE: For IPv6 ACLs on FastIron IPv6 devices running software release FSX 04.1.00 or later, see “IPv6 ACL Table (FastIron X Series IPv6 Devices)” on page 12-20.
NOTE: BigIron MG8 and NetIron 40G use the snAgAclIfBindTable (refer to “ACL Port Table (snAgAclIfBindTable)” on page 12-16).
Name, OID, and Syntax Access Description
snAgAclGblCurRowIndex
fdry.1.2.2.15.1.1
Syntax: Integer
Read only Shows the number of entries in the ACL table.
Name, OID, and Syntax Access Description
snAgAclTable
fdry.1.2.2.15.2
None Access Control List Table
snAgAclEntry
fdry.1.2.2.15.2.1
None An entry in the Access Control List Table
snAgAclIndex
fdry.1.2.2.15.2.1.1
Syntax: Integer
Read only Shows the index for an ACL entry that is associated with this ACL.
This number must be unique among all the entries, even though the value of other objects for an entry maybe the same those of another entry.
snAgAclNumber
fdry.1.2.2.15.2.1.2
Syntax: AclNumber
Read-write
The access control list number for an entry:
• 1 to 99 – Standard access list
• 100 to 199 – Extended access list
snAgAclName
fdry.1.2.2.15.2.1.3
Syntax: Display string
Read-write
Shows the ACL name.
April 2008 © 2008 Foundry Networks, Inc. 12-7
Foundry Management Information Base Reference
snAgAclAction
fdry.1.2.2.15.2.1.4
Syntax: Integer
Read-write
Indicates if IP packets that matched this access control list are permitted or denied:
• deny(0)
• permit(1)
The default action when no ACLs are configured on a device is to permit all traffic. However, once you configure an ACL and apply it to a port, the default action for that port is to deny all traffic that is not explicitly permitted on the port. Therefore:
• If you want to tightly control access, configure ACLs consisting of permit entries for the access you want to permit. The ACLs implicitly deny all other access.
• If you want to secure access in environments with many users, you might want to configure ACLs that consist of explicit deny entries, then add an entry to permit all access to the end of each ACL. The software permits packets that are not denied by the deny entries.
snAgAclProtocol
fdry.1.2.2.15.2.1.5
Syntax: IPProtocol
Read-write
Indicates the protocol denied or permitted by the extended ACL.
The IP protocol can be one of the following well-known names or any IP protocol number from 0 to 255:
• Internet Control Message Protocol (ICMP)
• Internet Group Management Protocol (IGMP)
• Internet Gateway Routing Protocol (IGRP)
• Internet Protocol (IP)
• Open Shortest Path First (OSPF)
• Transmission Control Protocol (TCP)
• User Datagram Protocol (UDP)
Entering “0” indicates any protocol.
snAgAclSourceIp
fdry.1.2.2.15.2.1.6
Syntax: IpAddress
Read-write
Applies only to extended ACLs.
Identifies the source IP address of the packet that will either be permitted or denied.
snAgAclSourceMask
fdry.1.2.2.15.2.1.7
Syntax: IpAddress
Read-write
Applies only to extended ACLs.
Identifies the source IP subnet mask of the packet that will either be permitted or denied.
Name, OID, and Syntax Access Description
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Filtering Traffic
snAgAclSourceOperator
fdry.1.2.2.15.2.1.8
Syntax: Operator
Read-write
Applies only to TCP or UDP ports in extended ACLs.
Indicates how the policy will be compared to the ports specified in the “snAgAclSourceOperand1” and “snAgAclSourceOperand2” objects:
• eq(0) – The policy applies only to packets whose source port number matches the port number specified in the objects.
• neq(1) – The policy applies only to packets whose source port numbers are not included in the specified range.
• lt(2) – The policy applies only to packets whose source port numbers are less than those in the specified range.
• gt(3) – The policy applies only to packets whose source port numbers are greater than those in the specified range.
• range(4) – The policy applies to packets whose source port numbers fall within the specified range.
• undefined(7)
snAgAclSourceOperand1
fdry.1.2.2.15.2.1.9
Syntax: Integer
Read-write
Applies only to TCP or UDP ports in extended ACLs.
Shows the source port number to be matched. If used with the “snAgAclSourceOperand2” object, it defines the start of the range of source port numbers to be matched.
Valid values: 0 – 65535. A value of 0 means that this object is not applicable.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 12-9
Foundry Management Information Base Reference
snAgAclSourceOperand2
fdry.1.2.2.15.2.1.10
Syntax: Integer
Read-write
Applies only to TCP or UDP ports in extended ACLs.
Used with the “snAgAclSourceOperand1” object, it defines the end of the range of source port numbers to be matched.
Valid values: 0 – 65535. A value of 0 means that this object is not applicable.
On devices running Enterprise IronWare Release 07.8.00 and later, this object filters traffic containing ICMP packets based on the type number and the code number of the ICMP packets. Use this object to identify the ICMP message type number. Make sure you indicate a code number in the “snAgAclIcmpCode” object.
Valid values for ICMP type number are:
• 0 = not applicable
• 1 = Echo reply
• 4 = Destination unreachable
• 5 = Source quench
• 6 = Redirect
• 9 = Echo request
• 10 = Router advertisement
• 11 = Router solicitation
• 12 = Time exceeded
• 13 = Parameter problem
• 14 = Timestamp request
• 15 = Timestamp reply
• 16 = Information request
• 17 = Information reply
• 18 = Address mask request
• 19 = Address mask reply
snAgAclDestinationIp
fdry.1.2.2.15.2.1.11
Syntax: IpAddress
Read-write
Applies only to extended ACLs.
Identifies the destination IP address of the packet that will either be permitted or denied.
snAgAclDestinationMask
fdry.1.2.2.15.2.1.12
Syntax: IpAddress
Read-write
Applies only to extended ACLs.
Identifies the destination subnet mask of the packet that will either be permitted or denied.
Name, OID, and Syntax Access Description
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snAgAclDestinationOperator
fdry.1.2.2.15.2.1.13
Syntax: Operator
Read-write
Applies only to TCP or UDP ports in extended ACLs.
Indicates how the policy will be compared to the ports specified in the “snAgAclDestinationOperand1” and “snAgAclDestinationOperand2” objects:
• eq(0) – The policy applies only to packets whose destination port number matches the port number specified in the objects.
• neq(1) – The policy applies only to packets whose destination port numbers are not included in the specified range.
• lt(2) – The policy applies only to packets whose destination port numbers are less than those in the specified range.
• gt(3) – The policy applies only to packets whose destination port numbers are greater than those in the specified range.
• range(4) – The policy applies to packets whose destination port numbers fall within the specified range.
• undefined(7).
snAgAclDestinationOperand1
fdry.1.2.2.15.2.1.14
Syntax: Integer
Read-write
Applies only to TCP or UDP ports in extended ACLs.
Shows the destination port number to be matched. If used with the “snAgAclDestinationOperand2” object, it defines the start of the range of destination port numbers to be matched.
Valid values: 0 – 65535. A value of 0 means that this object is not applicable.
snAgAclDestinationOperand2
fdry.1.2.2.15.2.1.15
Syntax: Integer
Read-write
Applies only to TCP or UDP ports in extended ACLs.
Used with the “snAgAclDestinationOperand1” object, it defines the end of the range of destination port numbers to be matched.
Valid values: 0 – 65535. A value of 0 means that this object is not applicable.
snAgAclPrecedence
fdry.1.2.2.15.2.1.16
Syntax: PrecedenceValue
Read-write
Applies only to extended ACLs.
Indicates the IP precedence value that a packet must have to be permitted or denied.
• routine(0)
• priority(1)
• immediate(2)
• flash(3)
• flash-override(4)
• critical(5)
• internet(6)
• network(7)
The following priorities specify a hardware forwarding queue: routine(0), priority(1), immediate(2), flash(3)
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 12-11
Foundry Management Information Base Reference
snAgAclTos
fdry.1.2.2.15.2.1.17
Syntax: TosValue
Read-write
Applies only to extended ACLs.
Indicates the type of service a packet must have to be denied or permitted:
• normal(0) – The ACL matches packets that have the normal TOS. If TOS is not defined, packets are matched to this value.
• minMonetaryCost(1) – The ACL matches packets that have the minimum monetary cost TOS.
• maxReliability(2) – The ACL matches packets that have the maximum reliability TOS.
• maxThroughput(4) – The ACL matches packets that have the maximum throughput TOS.
• minDelay(8) – The ACL matches packets that have the minimum delay TOS.
snAgAclEstablished
fdry.1.2.2.15.2.1.18
Syntax: Integer
Read-write
Applies only to extended ACLs.
Enables or disables the filtering of established TCP packets that have the ACK or RESET flag turned on. This additional filter only applies to TCP transport protocol.
• disabled(0)
• enabled(1)
snAgAclLogOption
fdry.1.2.2.15.2.1.19
Syntax: TruthVal
Read-write
Determines if ACL matches are logged:
• false(0) – Do not log ACL matches
• true(1) – Log ACL matches
snAgAclStandardFlag
fdry.1.2.2.15.2.1.20
Syntax: TruthVal
Read-write
Indicates if this is a standard ACL:
• false(0) – The ACL is an extended ACL
• true(1) – The ACL is a standard ACL
snAgAclRowStatus
fdry.1.2.2.15.2.1.21
Syntax: SnRowStatus
Read-write
Creates or deletes an ACL entry.
• other(1)
• valid(2)
• delete(3)
• create(4)
snAgAclFlowCounter
fdry.1.2.2.15.2.1.22
Syntax: Counter64
Read only Shows an approximate count of flows that match the individual ACL entry.
snAgAclPacketCounter
fdry.1.2.2.15.2.1.23
Syntax: Counter64
Read only Shows the number of packets that matched the ACL entry.
Name, OID, and Syntax Access Description
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Filtering Traffic
snAgAclComments
fdry.1.2.2.15.2.1.24
Syntax: Display string
Read-write
Indicates the description of an individual ACL entry.
snAgAclIpPriority
fdry.1.2.2.15.2.1.25
Syntax: Integer
Read-write
Indicates the QoS priority option for this ACL. This priority assigns traffic that matches the ACL to a hardware forwarding queue. In addition to changing the internal forwarding priority, if the outgoing interface is an 802.1Q interface, this option maps the specified priority to its equivalent 802.1p (CoS) priority and marks the packet with the new 802.1p priority.
NOTE: This option is available in IronWare software release 07.6.01 and later, and applies only to JetCore devices and 10 Gigabit Ethernet modules.
snAgAclPriorityForce
fdry.1.2.2.15.2.1.26
Syntax: Integer
Read-write
Indicates priority that is being forced on the outgoing packet. This parameter allows you assign packets of outgoing traffic that match the ACL to a specific hardware forwarding queue, even though the incoming packet may be assigned to another queue.
Valid values:
• qosp0(0)
• qosp1(1)
• qosp2(2)
• qosp3(3)
• Not defined(4)
Default: Not defined(4).
NOTE: This option is available in IronWare software release 07.6.01 and later, and applies only to JetCore devices and 10 Gigabit Ethernet modules.
snAgAclPriorityMapping
fdry.1.2.2.15.2.1.27
Syntax: Integer
Read-write
Indicates the priority of the incoming packet to be matched. This option maps the packet’s 802.1p value. It does not change the packet’s forwarding priority through the device nor does it mark the packet.
Valid values: 0 – 8
Default: Not defined(8)
NOTE: This option is available in IronWare software release 07.6.01 and later, and applies only to JetCore devices.
snAgAclDscpMarking
fdry.1.2.2.15.2.1.28
Syntax: Integer
Read-write
Indicates the DSCP marking of a packet that will be matched.
Valid values: 0 – 64
Default: Not defined(64)
NOTE: This option is available in IronWare software release 07.6.01 and later, and applies only to JetCore devices and 10 Gigabit Ethernet modules.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 12-13
Foundry Management Information Base Reference
snAgAclDscpMapping
fdry.1.2.2.15.2.1.29
Syntax: Integer
Read-write
Indicates the DCSP value of the incoming packet value to be matched.
Valid values: 0 – 64
Default: Not defined(64)
NOTE: This option is available in IronWare software release 07.6.01 and later, and applies only to JetCore devices and 10 Gigabit Ethernet modules.
snAgAclIcmpCode
fdry.1.2.2.15.2.1.30
Syntax: Integer
Read write If you entered a value for ICMP message type number in the “snAgAclSourceOperand2” object, enter the code number in this object.
Valid value for type code 1, Echo reply
• 1 = Echo reply
Valid values for type code4, Destination unreachable
• 1 = Network unreachable
• 2 = Host unreachable
• 3 = Protocol unreachable
• 4 = Port unreachable
• 5 = Fragmentation needed by don't fragment bit set
• 6 = Source route failed
• 7 = Destination network unknown
• 8 = Destination host unknown
• 9 = Source host isolated
• 10 = Destination network administratively prohibited
• 11 = Destination host administratively prohibited
• 12 = Network unreachable for TOS
• 13 = Host unreachable for TOS
• 14 = Communication administratively prohibited by filter
• 15 = Host precedence violation
• 16 = Precedence cutoff in effect
Valid valus for type code 5, Source quench
• 1 = Source quench
Valid values for type code 6, Redirect
• 1 = Redirect for network
• 2 = Redirect for host
• 3 = Redirect for TOS and network
• 4 = Redirect for TOS and host
Name, OID, and Syntax Access Description
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Filtering Traffic
ACL Bind to Port Table (snAgAclBindToPortTable)The ACL Bind to Port Table contains ACL port bindings for a Layer 3 Switch. Port numbers and bind direction are used to index entries.
This table has been deprecated.
snAgAclIcmpCode (continued) Valid value for type code 9, Echo request
• 1 = Echo request
Valid value for type code 10, Router advertisement
• 1 = Router advertisement
Valid value for type code 11, Router solicitation
• 1 = Router solicitation
Valid values for type code 12, Time exceeded
• 1 = Time to live equals 0 during transmit
• 2 = Time to live equals 0 during reassembly
Valid values for type code 13, Parameter problem
• 1 = IP header bad (catchall error)
• 2 = Required option missing
Valid value for type code 14, Timestamp request
• 1 = Timestamp request
Valid value for type code 15,Timestamp reply
• 1 = Timestamp reply
Valid value for type code 16, Information request
• 1 = Information request
Valid value for type code 17 Information reply
• 1 = Information reply
Valid value for type code 18 Address mask request
• 1 = Address mask request
Valid value for type code 19 Address mask reply
• 1 = Address mask reply
Name, OID, and Syntax Access Description
snAgAclBindToPortTable
fdry.1.2.2.15.3
None The ACL Bind to Port Table
snAgAclBindToPortEntry
fdry.1.2.2.15.3.1
None An entry in the ACL Bind to Port table
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 12-15
Foundry Management Information Base Reference
ACL Port Table (snAgAclIfBindTable)The snAgAclIfBindTable contains the ACLs defined for the BigIron MG8 and NetIron 40G. Other devices use the snAgAclTable (refer to “IPv4 ACL Table” on page 12-7).
NOTE: ACLPort MIBs are supported on the following products:
• BigIron RX
• NetIron XMR
snAgAclPortNum
fdry.1.2.2.15.3.1.1
Syntax: Integer
Read only Shows the format of port number..
• LS octet – port number (max 255)
• Next octet – slot number (max 255)
• MS Octet:
0 (phy) – 0000 to 0FFFF
1 (ve) – 10000 to 1FFFF
snAgAclPortBindDirection
fdry.1.2.2.15.3.1.2
Syntax: Direction
Read only Shows the traffic direction to which the ACL will be applied:
• inbound(0)
• outbound(1)
snAgAclNum
fdry.1.2.2.15.3.1.3
Syntax: Integer
Read-write
Shows the defined ACL number that will be bound to the port.
snAgAclNameString
fdry.1.2.2.15.3.1.4
Syntax: Display string
Read-write
Shows the defined ACL name that will be bound to the port.
snAgBindPortListInVirtualInterface
fdry.1.2.2.15.3.1.5
Syntax: Octet string
Read-write
Contains a list of ports for binding virtual interface
snAgAclPortRowStatus
fdry.1.2.2.15.3.1.6
Syntax: SnRowStatus
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
12-16 © 2008 Foundry Networks, Inc. April 2008
Filtering Traffic
• NetIron MLX
• NetIron IMR 640 Router
Name, OID, and Syntax Access Description
snAgAclIfBindTable
fdry.1.2.2.15.4
None The ACL Bind to Port Table
snAgAclIfBindEntry
fdry.1.2.2.15.4.1
None An entry in the ACL Bind to Port table
snAgAclIfBindIndex
fdry.1.2.2.15.4.1.1
Syntax: InterfaceIndex
Read only The number of the virtual or physical interface to which this ACL is bound.
snAgAclIfBindDirection
fdry.1.2.2.15.4.1.2
Syntax: Direction
Read only Shows the traffic direction to which the ACL will be applied:
• inbound(0)
• outbound(1)
snAgAclIfBindNum
fdry.1.2.2.15.4.1.3
Syntax: Integer
Read-write
Shows the defined ACL number that will be bound to the port.
snAgAclIfBindNameString
fdry.1.2.2.15.4.1.4
Syntax: Display string
Read-write
Shows the defined ACL name that will be bound to the port.
snAgAclIfBindVifPortList
fdry.1.2.2.15.4.1.5
Syntax: Octet string
Read-write
Contains a list of ports for binding virtual interface. Each port index is an ifIndex. If there are four or more consecutive ifIndexes then, they will be encoded. Encoding and decoding scheme is range based. Each range prefix with 0000 (2 octets) where 0000 is not a valid ifIndex. The next 2 octets indicates lower range ifIndex, followed by 2 octets of higher range ifIndex. Individual(non- range) ones will be displayed as is.
For example:
Port list: 0001..0005 0015 0032..0047
Port list in PDU: 0000 0001 0005 000f 0000 0020 002f
April 2008 © 2008 Foundry Networks, Inc. 12-17
Foundry Management Information Base Reference
ACL Port Table (AgAclAccntTable)The AgAclAccnt Table contains the ACLs defined for the BigIron and NetIron devices.
NOTE: The ACL Account MIBs are supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
snAgAclIfRowStatus
fdry.1.2.2.15.4.1.6
Syntax: SnRowStatus
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
agAclAccntTable
fdry.1.2.2.15.5.
None Table of ACL Accounting Statistics for router
agAclAccntEntry
fdry.1.2.2.15.5.1
None An entry in the ACL Accounting table.
agAclAccntKind
fdry.1.2.2.15.5.1.1
Syntax: Integer
None Kind of ACL Accounting statistics needed.
agAclAccntIfIndex
fdry.1.2.2.15.5.1.2
Syntax: InterfaceIndex
None Physical or virtual interface on which ACL accounting is desired. For Receive ACL, we use the lowest port of the management module as value for this object.
agAclAccntDirection
fdry.1.2.2.15.5.1.3
Syntax: Direction
None ACL port direction, inbound or outbound. For receive-acl kind, direction cannot be outbound.
Name, OID, and Syntax Access Description
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agAclAccntAclNumber
fdry.1.2.2.15.5.1.4
Syntax: AclNumber
None The access-list number for this entry.
agAclAccntFilterId
fdry.1.2.2.15.5.1.5
Syntax: Unsigned
None FilterId within a given ACL. This is a zero based value.
agAclAccntAclName
fdry.1.2.2.15.5.1.6
Syntax: AclNameString
Read-only ACL name for an entry, if applicable. Otherwise, null string is returned.
agAclAccntOneSecond
fdry.1.2.2.15.5.1.7
Syntax: Counter64
Read-only Last one second accounting data.
agAclAccntOneMinute
fdry.1.2.2.15.5.1.8
Syntax: Counter64
Read-only Last one minute accounting data.
agAclAccntFiveMinute
fdry.1.2.2.15.5.1.9
Syntax: Counter64
Read-only Last five minute accounting data.
agAclAccntCumulative
fdry.1.2.2.15.5.1.10
Syntax: Counter64
Read-only Cummulative accounting data since the ACL was installed.
agAclAccntRaclDropCnt
fdry.1.2.2.15.5.1.11
Syntax: Counter64
Read-only Receive-ACL drop counter used for rate limiting. Not used for other ACL kind. The value returned is per ACL, instead of per filter within the ACL.
agAclAccntRaclFwdCnt
fdry.1.2.2.15.5.1.12
Syntax: Counter64
Read-only Receive-ACL forward counter used for rate limiting. Not used for other ACL kind. The value returned is per ACL, instead of per filter within the ACL.
agAclAccntRaclRemarkCnt
fdry.1.2.2.15.5.1.13
Syntax: Counter64
Read-only Receive-ACL remark counter used for rate limiting. Not used for other ACL kind. The value returned is per ACL, instead of per filter within the ACL.
agAclAccntRaclTotalCnt
fdry.1.2.2.15.5.1.14
Syntax: Counter64
Read-only Receive-ACL total counter used for rate limiting. Not used for other ACL kind. The value returned is per ACL, instead of per filter within the ACL.
Name, OID, and Syntax Access Description
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IPv6 ACL Table (FastIron X Series IPv6 Devices)This table contains the IPv6 ACLs for FastIron X Series IPv6 devices running software release 04.1.00 or later.
NOTE: Releases prior to FSX 04.1.00 and IPv6 devices that support IPv4 routing only, use the “IPv4 ACL Table” on page 12-7.
agAclAccntRaclTotalSWHitCountCnt
fdry.1.2.2.15.5.1.15
Syntax: Counter64
Read-only Receive-ACL cumulative software hit counter. Not used for other ACL kind. The value returned is per ACL, instead of per filter within the ACL."
Name, OID, and Syntax Access Description
fdryIpv6AclTable
fdry.1.2.16.1.1.1
Syntax: Sequence of FdryIpv6AclEntry
None The IPv6 Access Control List table.
fdryIpv6AclEntry
fdry.1.2.16.1.1.1.1
Syntax: FdryIpv6AclEntry
None An entry in the IPv6 Access Control List table.
fdryIpv6AclIndex
fdry.1.2.16.1.1.1.1.1
Syntax:
None The index number for an ACL entry.
This is a unique number even though the name is not unique for a given ACL with the same or different source address, prefix length, destination address, destination prefix length, protocol type, action (permit or deny) type, and operator (neq, eq, gt, and lt).
fdryIpv6AclName
fdry.1.2.16.1.1.1.1.2
Syntax: Display string(size (0..199))
Read-create
The ACL name for an entry.
fdryIpv6AclAction
fdry.1.2.16.1.1.1.1.3
Syntax: Action
Read-create
The action to take if the IP packet matches this ACL.
fdryIpv6AclProtocol
fdry.1.2.16.1.1.1.1.4
Syntax: IpProtocol
Read-create
The transport protocol(s). 0 means any protocol.
fdryIpv6AclSourceIp
fdry.1.2.16.1.1.1.1.5
Syntax: Ipv6Address
Read-create
The source IPv6 address.
Name, OID, and Syntax Access Description
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Filtering Traffic
fdryIpv6AclSourcePrefixLen
fdry.1.2.16.1.1.1.1.6
Syntax: Unsigned32
Read-create
The source IPv6 address prefix length.
fdryIpv6AclSourceOperator
fdry.1.2.16.1.1.1.1.7
Syntax: Operator
Read-create
The type of comparison to perform. This applies only to TCP or UDP.
fdryIpv6AclSourceOperand1
fdry.1.2.16.1.1.1.1.8
Syntax: Unsigned32
Read-create
This object refers to the transport protocol port number.
fdryIpv6AclSourceOperand2
fdry.1.2.16.1.1.1.1.9
Syntax: Unsigned32(0..65535)
Read-create
This object refers to the transport protocol port number.
fdryIpv6AclDestinationIp
fdry.1.2.16.1.1.1.1.10
Syntax: Ipv6Address
Read-create
The destination IPv6 address.
fdryIpv6AclDestinationPrefixLen
fdry.1.2.16.1.1.1.1.11
Syntax: Unsigned32
Read-create
The destination IPv6 address prefix length.
fdryIpv6AclDestinationOperator
fdry.1.2.16.1.1.1.1.12
Syntax: Operator
Read-create
The type of comparison to perform. This applies only to TCP or UDP.
fdryIpv6AclDestinationOperand1
fdry.1.2.16.1.1.1.1.13
Syntax: Unsigned32(0..65535)
Read-create
This object refers to the transport protocol port number.
fdryIpv6AclDestinationOperand2
fdry.1.2.16.1.1.1.1.14
Syntax: Unsigned32(0..65535)
Read-create
This object refers to the transport protocol port number.
fdryIpv6AclEstablished
fdry.1.2.16.1.1.1.1.15
Syntax: RtrStatus
Read-create
Enables or disables the filtering of established TCP packets for which the ACK or RESET flag is on. This filter applies only to the TCP transport protocol.
fdryIpv6AclLogOption
fdry.1.2.16.1.1.1.1.16
Syntax: TruthValue
Read-create
The log flag. This should be set to one, which enables logging.
Name, OID, and Syntax Access Description
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fdryIpv6AclComments
fdry.1.2.16.1.1.1.1.17
Syntax: Display string(size (0..255))
Read-create
A description of the individual ACL entry.
fdryIpv6AclRowStatus
fdry.1.2.16.1.1.1.1.18
Syntax: RowStatus
Read-create
Creates or deletes an ACL entry.
Name, OID, and Syntax Access Description
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Chapter 13Traffic Control and Prioritization
This chapter presents the objects that can be used to prioritize traffic. It presents objects for the following features:
• “Quality of Service” on page 13-1
• “CAR” on page 13-2
Quality of Service Quality of Service (QoS) provides guaranteed bandwidth for certain traffic flows, by assigning priorities to queues that will be used by the traffic. For more information on QoS, refer to the Foundry Enterprise Configuration and Management Guide.
The following tables are available to configure QoS:
• “QoS Profile Table” on page 13-1
• “QoS Bind Table” on page 13-2
QoS Profile TableThe following table contains the configuration of QoS profile groups.
Name, OID, and Syntax Access Description
snQosProfileTable
fdry.1.1.3.14.1
None The QoS Profile Table.
snQosProfileEntry
fdry.1.1.3.14.1.1
None An entry of the QoS Profile Table. Each entry represents a queue profile.
snQosProfileIndex
fdry.1.1.3.14.1.1.1
Syntax: Integer
Read only The table index of QoS Profile. There can be up to four profiles in this table.
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QoS Bind TableThe following table binds 802.1p tags to the entries in the “QoS Profile Table” on page 13-1.
CARThis section presents the objects for Committed Access Rate (CAR), a Rate Limiting feature. Rate Limiting is a method of traffic control. You can configure a set of fixed or adaptive rate limits to regulate network traffic flow on an interface. The objects in this section are for the Fixed Rate Limiting feature.
The following tables are available to configure CAR:
• “CAR Port Table” on page 13-3
• “VLAN CAR Objects” on page 13-5
snQosProfileName
fdry.1.1.3.14.1.1.2
Syntax: Display string
Read-write
Shows the name of the QoS profile.
Valid values: Up to 32 characters.
snQosProfileRequestedBandwidth
fdry.1.1.3.14.1.1.3
Syntax: Integer
Read-write
Shows the requested bandwidth for the QoS profile.
snQosProfileCalculatedBandwidth
fdry.1.1.3.14.1.1.4
Syntax: Integer
Read only Shows the calculated bandwidth of the QoS profile.
Name, OID, and Syntax Access Description
snQosBindTable
fdry.1.1.3.14.2
None The QoS Bind Table.
snQosBindEntry
fdry.1.1.3.14.2.1
None An entry of the snQosBindTable.
snQosBindIndex
fdry.1.1.3.14.2.1.1
Syntax: Integer
Read only The table index of QoS Bind.
snQosBindPriority
fdry.1.1.3.14.2.1.2
Syntax: Integer
Read only Shows the QoS bind priority.
snQosBindProfileIndex
fdry.1.1.3.14.2.1.3
Syntax: Integer
Read-write
Is an index that serves as a pointer to the index of the “snQosProfileTable” .
Name, OID, and Syntax Access Description
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Traffic Control and Prioritization
CAR Port TableThe CAR Port Table shows the definitions of CAR objects. This table is indexed by the “snPortCARifIndex” , “snPortCARDirection” , and “snPortCARRowIndex” objects.
Name, OID, and Syntax Access Description
snPortCARTable
fdry.1.1.3.16.1.1
None The CAR Port Table
snPortCAREntry
fdry.1.1.3.16.1.1.1
None An entry in the CAR Port Table
snPortCARifIndex
fdry.1.1.3.16.1.1.1.1
Syntax: Integer
Read only Shows the ifIndex value for this rate limit entry.
snPortCARDirection
fdry.1.1.3.16.1.1.1.2
Syntax: Integer
Read only Specifies the transmission direction of the Rate-Limit object.
• input(0) – for inbound traffic
• output(1) – for outbound traffic
snPortCARRowIndex
fdry.1.1.3.16.1.1.1.3
Syntax: Integer
Read only Shows the table index for rate limit objects. Rows are numbered in sequential order. When a row is added, it is assigned the next sequential number. When a row is deleted, the row is skipped.
snPortCARType
fdry.1.1.3.16.1.1.1.4
Syntax: RateLimitType
Read only Shows the type of traffic to which the rate limit is applied.
• all(3) – all traffic.
• standardAcc(1) – traffic matches standard access list.
• quickAcc(2) – traffic matches rate-limit’s access list.
snPortCARAccIdx
fdry.1.1.3.16.1.1.1.5
Syntax: Integer
Read only Indicates the index to the access list if rate limit type is one of the following:
• standardAcc(1) – traffic matches standard access list.
• quickAcc(2) – traffic matches rate-limit’s access list.
snPortCARRate
fdry.1.1.3.16.1.1.1.6
Syntax: Integer
Read only Shows the committed access rate for the long term average transmission rate in bits per second. Traffic that falls under this rate always conforms to this rate.
snPortCARLimit
fdry.1.1.3.16.1.1.1.7
Syntax: Integer
Read only Shows the normal burst size in bytes. Normal burst size is the number of bytes that are guaranteed to be transported by the network at the average rate under normal conditions during the committed time interval.
snPortCARExtLimit
fdry.1.1.3.16.1.1.1.8
Syntax: Integer
Read only Shows the extended burst limit in bytes. The extended burst limit determines how large traffic bursts can be before all the traffic exceeds the rate limit.
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snPortCARConformAction
fdry.1.1.3.16.1.1.1.9
Syntax: Integer
Read only Indicates what happens to packets when the traffic is within the Rate Limit.
• continue(1) – Continue to evaluate the subsequent rate limits.
• drop(2) – Drop the packet.
• precedCont(3) – Rewrite the IP precedence and transmit the packet.
• precedXmit(4) – Rewrite the IP precedence and transmit the packet.
• xmit(5) – Transmit the packet.
snPortCARExceedAction
fdry.1.1.3.16.1.1.1.10
Syntax: Integer
Read only Indicates what happens to packets when the traffic exceeds the Rate Limit.
• continue(1) – Continue to evaluate the subsequent rate limits.
• drop(2) – Drop the packet.
• precedCont(3) – Rewrite the IP precedence and transmit the packet.
• precedXmit(4) – Rewrite the IP precedence and transmit the packet.
• xmit(5) – Transmit the packet.
snPortCARStatSwitchedPkts
fdry.1.1.3.16.1.1.1.11
Syntax: Counter64
Read only Indicates the number of packets permitted by this rate limit.
snPortCARStatSwitchedBytes
fdry.1.1.3.16.1.1.1.12
Syntax: Counter64
Read only Indicates the number of bytes permitted by this interface.
snPortCARStatFilteredPkts
fdry.1.1.3.16.1.1.1.13
Syntax: Counter64
Read only Indicates the number of packets which exceeded this rate limit.
snPortCARStatFilteredBytes
fdry.1.1.3.16.1.1.1.14
Syntax: Counter64
Read only Indicates the number of bytes which exceeded this rate limit.
snPortCARStatCurBurst
fdry.1.1.3.16.1.1.1.15
Syntax: Gauge
Read only Shows the current burst size of received.
Name, OID, and Syntax Access Description
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Traffic Control and Prioritization
VLAN CAR ObjectsThe objects in the following table contain the rate limit configuration for VLANs. This table is indexed by the “snVLanCARVLanId” , “snVLanCARDirection” , and “snVLanCARRowIndex” objects.
Name, OID, and Syntax Access Description
snVLanCARTable
fdry.1.1.3.17.1.1
None The VLAN rate limit table.
snVLanCAREntry
fdry.1.1.3.17.1.1.1
None An entry in the VLAN CAR Table.
snVLanCARVLanId
fdry.1.1.3.17.1.1.1.1
Syntax: Integer
Read only Shows the VLAN ID. VLAN ID is one of the indices of this table. Each VLAN ID can have a membership of multiple ports.
Valid values: 1 – 4095
snVLanCARDirection
fdry.1.1.3.17.1.1.1.2
Syntax: Integer
Read only Specifies the transmission direction of the Rate-Limit object.
• input(0) – for inbound traffic
• output(1) – for outbound traffic
snVLanCARRowIndex
fdry.1.1.3.17.1.1.1.3
Syntax: Integer
Read only Shows the table index for rate limit objects for the VLAN. Rows are numbered in sequential order. When a row is added, it is assigned the next sequential number. When a row is deleted, the row is skipped.
snVLanCARType
fdry.1.1.3.17.1.1.1.4
Syntax: Integer
Read only Shows the type of traffic to which the rate limit is applied.
• all(3) – all traffic.
• standardAcc(1) – traffic matches standard access list.
• quickAcc(2) – traffic matches rate-limit’s access list.
snVLanCARAccIdx
fdry.1.1.3.17.1.1.1.5
Syntax: Integer
Read only Indicates the index to the access list if rate limit type is one of the following:
• standardAcc(1) – traffic matches standard access list.
• quickAcc(2) – traffic matches rate-limit’s access list.
snVLanCARRate
fdry.1.1.3.17.1.1.1.6
Read only Shows the committed access rate for long term average transmission for this VLAN. This rate is in bits per second. Traffic that falls under this rate always conforms to this rate.
snVLanCARLimit
fdry.1.1.3.17.1.1.1.7
Syntax: Integer
Read only Shows the normal burst size in bytes. Normal burst size is the number of bytes that are guaranteed to be transported by the network at the average rate under normal conditions during the committed time interval.
snVLanCARExtLimit
fdry.1.1.3.17.1.1.1.8
Syntax: Integer
Read only Shows the extended burst limit in bytes. The extended burst limit determines how large traffic bursts can be before all the traffic exceeds the rate limit.
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snVLanCARConformAction
fdry.1.1.3.17.1.1.1.9
Syntax: Integer
Read only Indicates what happens to packets when the traffic is within the Rate Limit.
• continue(1) – Continue to evaluate the subsequent rate limits.
• drop(2) – Drop the packet.
• precedCont(3) – Rewrite the IP precedence and transmit the packet.
• precedXmit(4) – Rewrite the IP precedence and transmit the packet.
• xmit(5) – Transmit the packet.
snVLanCARExceedAction
fdry.1.1.3.17.1.1.1.10
Syntax: Integer
Read only Indicates what happens to packets when the traffic exceeds the Rate Limit.
• continue(1) – Continue to evaluate the subsequent rate limits.
• drop(2) – Drop the packet.
• precedCont(3) – Rewrite the IP precedence and transmit the packet.
• precedXmit(4) – Rewrite the IP precedence and transmit the packet.
• xmit(5) – Transmit the packet.
snVLanCARStatSwitchedPkts
fdry.1.1.3.17.1.1.1.11
Syntax: Counter64
Read only Indicates the number of packets permitted by this rate limit.
snVLanCARStatSwitchedBytes
fdry.1.1.3.17.1.1.1.12
Syntax: Counter64
Read only Indicates the number of bytes permitted by this interface.
snVLanCARStatFilteredPkts
fdry.1.1.3.17.1.1.1.13
Syntax: Counter64
Read only Indicates the number of packets which exceeded this rate limit.
snVLanCARStatFilteredBytes
fdry.1.1.3.17.1.1.1.14
Syntax: Counter64
Read only Indicates the number of bytes which exceeded this rate limit.
snVLanCARStatCurBurst
fdry.1.1.3.17.1.1.1.15
Syntax: Gauge
Read only Shows the current burst size of received packets.
Name, OID, and Syntax Access Description
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Chapter 14Multicast
The multicast feature allows packets to be simultaneously transmitted to a selected set of destinations, such one or more multicast groups.
This chapter presents objects for multicasting protocols in the following sections:
• “IGMP” on page 14-1
• “PIM” on page 14-4
• “DVMRP” on page 14-13
• “MRP” on page 14-21
Refer to the Foundry Enterprise Configuration and Management Guide for details on the features discussed in this chapter.
IGMPThe Internet Group Membership Protocol (IGMP) allows Foundry Layer 3 Switches to limit the multicast of IGMP packets to only those ports on the Layer 3 Switch that are identified as IP Multicast members. Foundry devices support IGMP versions 1 and 2. The Layer 3 Switch actively sends out host queries to identify IP Multicast groups on the network, inserts the group information in an IGMP packet, and forwards the packet to IP Multicast neighbors.
Objects for IGMP are presented in the following sections:
• “General IGMP Objects” on page 14-2
• “IGMP Interface Table” on page 14-2
• “IGMP Static Group MIB Table” on page 14-3
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General IGMP ObjectsThe following general IGMP objects are available in all Foundry devices.
IGMP Interface TableThe IGMP Interface Table contains the group membership information of a port.
Object Name and Number Access Description
snIgmpQueryInterval
fdry.1.2.6.1.1
Syntax: Integer
Read-write
Specifies how often the Layer 3 Switch sends out IGMP host query packets to query an interface for group membership.
Valid values: 1 – 3600 seconds.
Default: 60 seconds
For a Layer 3 Switch, the object “snDvmrpEnable” must have been set to “enabled(1)” before this object can be written.
For a Layer 2 Switch, the object “snSwGroupIpMcastMode” must have been set to “enabled(1)” and the object “snSwIpMcastQuerierMode” must have been set to “querier(1)” before this object can be written.
snIgmpGroupMembershipTime
fdry.1.2.6.1.2
Syntax: Integer
Read-write
Specifies how many seconds an IP Multicast group can remain on a Layer 3 Switch interface in the absence of a group report.
Valid values: 1 – 7200 seconds.
Default: 60 seconds
For a Layer 3 Switch, the object “snDvmrpEnable” must have been set to “enabled(1)” before this object can be written.
For a Layer 2 Switch, the object “snSwGroupIpMcastMode” must have been set to “enabled(1)” before this object can be written.
Object Name and Number Access Description
snIgmpIfTable
fdry.1.2.6.1.3
None The IGMP Interface Table.
snIgmpIfEntry
fdry.1.2.6.1.3.1
None An entry in the IGMP Interface Table.
snIgmpIfEntryIndex
fdry.1.2.6.1.3.1.1
Syntax: Integer
Read only The table entry index.
snIgmpIfPortNumber
fdry.1.2.6.1.3.1.2
Syntax: Integer
Read only Shows the port number (interface) on which the group was learned.
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Multicast
IGMP Static Group MIB TableThe IGMP Static Group MIB table is available beginning with IronWare software release 07.6.02.
The table contains a list of IGMP static group entries. This table is available when IP Multicast Traffic Reduction is enabled on a Layer 2 Switch. The snSwGroupIpMcastMode MIB object enables or disables IP Multicast using SNMP.
By default, Foundry Layer 2 Switches forward all IP multicast traffic out of all ports except the port on which the traffic was received. To reduce multicast traffic through the Layer 2 Switch, you can enable IP Multicast Traffic Reduction. This feature configures the Layer 2 Switch to forward multicast traffic only on the ports attached to multicast group members. The Layer 2 Switch determines the ports that are attached to multicast group members based on entries in the IGMP table. Each entry in the table consists of an IP multicast group address and the Foundry Layer 2 Switch ports from which the Layer 2 Switch has received Group Membership reports for that group.
After you enable IP Multicast Traffic Reduction, when the Layer 2 Switch receives traffic for an IP multicast group, the Layer 2 Switch looks in the IGMP table for an entry for that group. If the Layer 2 Switch finds an entry, the Layer 2 Switch forwards the group traffic out the ports listed in the group entry. If the table does not contain an entry for the group, the Layer 2 Switch broadcasts the traffic.
The IGMP table is populated by receipt of Group Membership messages from IP multicast group members. Each Group Membership message contains the member’s IP address and the group address.
snIgmpIfGroupAddress
fdry.1.2.6.1.3.1.3
Syntax: IpAddress
Read only Shows the group’s IP address learned from the interface.
snIgmpIfGroupAge
fdry.1.2.6.1.3.1.4
Syntax: Integer
Read only Specifies how many seconds the Layer 3 Switch will wait for an IGMP response from an interface before concluding that the group member on that interface is down. The switch will then begin to remove the interface from the group.
Valid values: 1 – 10 seconds
Default: 5 seconds
Name, OID, and Syntax Access Description
snIgmpStaticGroupTable
fdry.1.2.6.1.4
None The IGMP Static Group Table
snIgmpStaticGroupEntry
fdry.1.2.6.1.4.1
None An entry in the IGMP static group. Each entry contains membership information.
snIgmpStaticGroupIfIndex
fdry.1.2.6.1.4.1.1
Syntax: Integer
Read only Shows the interface for which the group was configured.
snIgmpStaticGroupAddress
fdry.1.2.6.1.4.1.2
Syntax: IpAddress
Read only Shows the IP address for the group.
Object Name and Number Access Description
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PIMProtocol-Independent Multicast (PIM) protocol is supported by proprietary MIBs and standard RFC 2934 MIBs in the following Foundry products.
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
Within RFC 2934, the following objects are not curently suppported:
• pimIpMRouteTable
• pimIpMRouteNextHopTable
• pimComponentTable
The objects for PIM are presented in the following sections:
• “Common PIM Objects” on page 14-5
• “PIM Virtual Interface Table” on page 14-6
• “PIM Neighbor Table” on page 14-7
• “PIM Virtual Interface Statistics Table” on page 14-8
• “PIM-SM” on page 14-10
snIgmpStaticGroupPortList
fdry.1.2.6.1.4.1.3
Syntax: Octet string
Read-write
Contains a list of ports that are members of the static group. Each port contains a 16-bit integer ifIndex.
snIgmpStaticGroupRowStatus
fdry.1.2.6.1.4.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• other(1) – Row is inoperative
• valid(2) – Row exists and is valid
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Multicast
Common PIM ObjectsThe following table presents objects that are common to all PIM interfaces.
Name, OID, and Syntax Access Description
snPimEnable
fdry.1.2.9.1.1
Syntax: Integer
Read-write
Determines if PIM is enabled on this Layer 3 Switch:
• disabled(0)
• enabled(1)
Default: disabled(0)
The remaining object applies only if this object is set to enabled(1).
snPimNeighborRouterTimeout
fdry.1.2.9.1.2
Syntax: Integer
Read-write
Specifies the number of seconds the PIM Layer 3 Switch waits before it considers a neighbor to be absent. Absence of PIM hello messages from a neighboring Layer 3 Switch indicates that a neighbor is not present.
Valid values: 60 – 8000 seconds
Default: 180 seconds
snPimHelloTime
fdry.1.2.9.1.3
Syntax: Integer
Read-write
Specifies the number of seconds that periodic hellos are sent out on PIM interfaces. Layer 3 Switches use hello messages to inform neighboring Layer 3 Switches of their presence.
Valid values: 10 – 3600 seconds
Default: 60 seconds
snPimPruneTime
fdry.1.2.9.1.4
Syntax: Integer
Read-write
Specifies the number of seconds that a Foundry PIM Layer 3 Switch will maintain a prune state for a forwarding entry.
The first multicast that the Layer 3 Switch receives from an interface is forwarded to all other PIM interfaces on the Layer 3 Switch. If there is no presence of groups on that interface, the leaf node sends a prune message upstream and stores a prune state. This prune state travels up the tree and installs a prune state.
A prune state is maintained until the prune timer expires or a graft message is received for the forwarding entry.
Valid values: 10 – 3600 seconds
Default: 180 seconds
snPimGraftRetransmitTime
fdry.1.2.9.1.5
Syntax: Integer
Read-write
Defines the number of seconds between the transmission of graft messages.
A graft message is sent by a Layer 3 Switch to cancel a prune state. When a Layer 3 Switch receives a graft message, the Layer 3 Switch responds with a Graft ACK (acknowledge) message. If this Graft ACK message is lost, the Layer 3 Switch that sent the graft message will resend it.
Valid values: 10 – 3600 seconds
Default: 180 seconds
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PIM Virtual Interface TableThe PIM Virtual Interface Table lists the PIM virtual interfaces on a Layer 3 Switch.
snPimInactivityTime
fdry.1.2.9.1.6
Syntax: Integer
Read-write
Defines how long a forwarding entry can remain unused before the Layer 3 Switch deletes it. The Layer 3 Switch deletes a forwarding entry if the entry is not used to send multicast packets.
This object is used only to keep the forwarding entries for the active sessions.
Valid values: 10 – 3600 seconds
Default: 180 seconds
Name, OID, and Syntax Access Description
snPimVInterfaceTable
fdry.1.2.9.1.7
None The PIM Virtual Interface Table.
snPimVInterfaceEntry
fdry.1.2.9.1.7.1
None An entry in the PIM Virtual Interface Table.
snPimVInterfaceVifIndex
fdry.1.2.9.1.7.1.1
Syntax: Integer
Read only The ifIndex value of this PIM virtual interface. There can be up to 48 entries.
snPimVInterfaceType
fdry.1.2.9.1.7.1.2
Syntax: Integer
Read-write
Indicates the type of PIM virtual interface the row represents:
• tunnel(1)
• subnet(2) or a physical interface
snPimVInterfaceLocalAddress
fdry.1.2.9.1.7.1.3
Syntax: IpAddress
Read-write
Indicates the IP address of the local end of the interface being configured.
IP tunneling must also be enabled and defined on the destination Layer 3 Switch interface as well..
snPimVInterfaceLocalSubnetMask
fdry.1.2.9.1.7.1.4
Syntax: IpAddress
Read only Shows the network mask for the IP address of the PIM virtual interface. For a tunnel, this should be 0.0.0.0.
snPimVInterfaceRemoteAddress
fdry.1.2.9.1.7.1.5
Syntax: IpAddress
Read-write
Shows the IP address of the remote end of this PIM virtual interface.
snPimVInterfaceDR
fdry.1.2.9.1.7.1.6
Syntax: IpAddress
Read only Defines the designated Layer 3 Switch on this PIM virtual interface. For point-to-point interfaces, this object has the value 0.0.0.0.
Name, OID, and Syntax Access Description
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Multicast
PIM Neighbor TableThe PIM Neighbor Table is a conceptual table that lists the Layer 3 Switch’s PIM neighbors.
snPimVInterfaceTtlThreshold
fdry.1.2.9.1.7.1.7
Syntax: Integer
Read-write
Determines the minimum time-to-live value to forward the packets out of this interface.
Valid values: 1 – 31
Default: 1
snPimVInterfaceStatus
fdry.1.2.9.1.7.1.8
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snPimVInterfaceMode
fdry.1.2.9.1.7.1.9
Syntax: Integer
Read-write
Shows the configured mode of this PIM interface:
• dense(1) – Traffic is initially flooded to all PIM interface neighbors. Branches that do not want the data are pruned.
• sparse(2) – PIM interface neighbors must join the multicast group if they want to receive the traffic.
Name, OID, and Syntax Access Description
snPimNeighborTable
fdry.1.2.9.1.8
None The PIM Neighbor Table
snPimNeighborEntry
fdry.1.2.9.1.8.1
None An entry in the PIM Neighbor Table
snPimNeighborEntryIndex
fdry.1.2.9.1.8.1.1
Syntax: Integer
Read only The table entry index.
snPimNeighborVifIndex
fdry.1.2.9.1.8.1.2
Syntax: Integer
Read only Shows the value of VifIndex for the virtual interface used to reach this PIM neighbor.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 14-7
Foundry Management Information Base Reference
PIM Virtual Interface Statistics TableThe PIM Virtual Interface Statistics table lists the Layer 3 Switch’s PIM virtual interface statistical counters.
snPimNeighborAddress
fdry.1.2.9.1.8.1.3
Syntax: IpAddress
Read only Shows the IP address of the this PIM neighbor.
snPimNeighborUpTime
fdry.1.2.9.1.8.1.4
Syntax: Time ticks
Read only Indicates the last time when this PIM neighbor became a neighbor of the local Layer 3 Switch.
snPimNeighborExpiryTime
fdry.1.2.9.1.8.1.5
Syntax: Time ticks
Read only Displays the time remaining before this PIM neighbor will be aged out.
Name, OID, and Syntax Access Description
snPimVIfStatTable
fdry.1.2.9.1.9
None The PIM Virtual Interface Statistics Table.
snPimVIfStatEntry
fdry.1.2.9.1.9.1
None An entry in the PIM Virtual Interface Statistics Table.
snPimVIfStatVifIndex
fdry.1.2.9.1.9.1.1
Syntax: Integer
Read only The ifIndex value of this PIM virtual interface. There can be up – 32 entries.
snPimVIfStatInJoinPkts
fdry.1.2.9.1.9.1.2
Syntax: Counter
Read only Shows the number of Join/Prune messages sent or received on the interface.
NOTE: Unlike PIM dense, PIM Sparse uses the same messages for Joins and Prunes.T
snPimVIfStatOutJoinPkts
fdry.1.2.9.1.9.1.3
Syntax: Counter
Read only Indicates the number of join packets that have been sent on the PIM virtual interface.
snPimVIfStatDiscardJoinPkts
fdry.1.2.9.1.9.1.4
Syntax: Counter
Read only Shows the number of join packets that have been discarded by the PIM virtual interface.
snPimVIfStatInPrunePkts
fdry.1.2.9.1.9.1.5
Syntax: Counter
Read only Shows the number of prune packets that have arrived on the PIM virtual interface.
Name, OID, and Syntax Access Description
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Multicast
snPimVIfStatOutPrunePkts
fdry.1.2.9.1.9.1.6
Syntax: Counter
Read only Shows the number of prune packets that have been sent on the PIM virtual interface.
snPimVIfStatDiscardPrunePkts
fdry.1.2.9.1.9.1.7
Syntax: Counter
Read only Shows the number of prune packets that have been discarded by the PIM virtual interface.
snPimVIfStatInAssertPkts
fdry.1.2.9.1.9.1.8
Syntax: Counter
Read only Shows the number of assert packets that have arrived on the PIM virtual interface.
snPimVIfStatOutAssertPkts
fdry.1.2.9.1.9.1.9
Syntax: Counter
Read only Shows the number of assert packets that have been sent on the PIM virtual interface.
snPimVIfStatDiscardAssertPkts
fdry.1.2.9.1.9.1.10
Syntax: Counter
Read only Shows the number of assert packets that have been discarded by the PIM virtual interface.
snPimVIfStatInHelloPkts
fdry.1.2.9.1.9.1.11
Syntax: Counter
Read only Shows the number of hello packets that have arrived on the PIM virtual interface.
snPimVIfStatOutHelloPkts
fdry.1.2.9.1.9.1.12
Syntax: Counter
Read only Shows the number of hello packets that have been sent on the PIM virtual interface.
snPimVIfStatDiscardHelloPkts
fdry.1.2.9.1.9.1.13
Syntax: Counter
Read only Shows the number of hello packets that have been discarded by the PIM virtual interface.
snPimVIfStatInGraftPkts
fdry.1.2.9.1.9.1.14
Syntax: Counter
Read only Shows the number of graft packets that have arrived on the PIM virtual interface.
snPimVIfStatOutGraftPkts
fdry.1.2.9.1.9.1.15
Syntax: Counter
Read only Shows the number of graft packets that have been sent on the PIM virtual interface.
snPimVIfStatDiscardGraftPkts
fdry.1.2.9.1.9.1.16
Syntax: Counter
Read only Shows the number of graft packets that have been discarded by the PIM virtual interface.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 14-9
Foundry Management Information Base Reference
PIM-SM The following tables are available for the PIM Sparse feature.
• “PIM Sparse: Candidate BSR Table” on page 14-10
• “PIM RP Set Table” on page 14-11
• “PIM RP Candidate Table” on page 14-12
PIM Sparse: Candidate BSR Table
The Candidate Bootstrap Router (BSR) Table contains information about BSRs that can are candidates to be the active BSR for the domain. The Bootstrap Router (BSR) distributes Rendezvous Point (RP) information to the other PIM Sparse routers within the domain. Each PIM Sparse domain has one active BSR. For redundancy, you can configure ports on multiple routers as candidate BSRs. The PIM Sparse protocol uses an election process to select one of the candidate BSRs as the active BSR for the domain. The BSR with the highest BSR priority is elected. If the priorities result in a tie, then the candidate BSR interface with the highest IP address is elected.
snPimVIfStatInGraftAckPkts
fdry.1.2.9.1.9.1.17
Syntax: Counter
Read only Shows the number of graft acknowledge packets that have arrived on the PIM virtual interface.
snPimVIfStatOutGraftAckPkts
fdry.1.2.9.1.9.1.18
Syntax: Counter
Read only Shows the number of graft acknowledge packets that have been sent on the PIM virtual interface.
snPimVIfStatDiscardGraftAckPkts
fdry.1.2.9.1.9.1.19
Syntax: Counter
Read only Shows the number of graft acknowledge packets that have been discarded by the PIM virtual interface.
Name, OID, and Syntax Access Description
snPimJoinPruneInterval
fdry.1.2.9.2.1
Syntax: Integer
Read-write
Determines the the number of seconds when periodic PIM Spare Join/Prune messages are to be sent. These messages inform other PIM Sparse Layer 3 Switches about clients who want to become receivers (Join) or stop being receivers (Prune) for PIM Sparse groups.
Valid values: 10 – 3600 seconds
Default: 60 seconds
Name, OID, and Syntax Access Description
snPimCandidateBSRTable
fdry.1.2.9.2.2
None The Candidate Bootstrap Router Table.
snPimCandidateBSREntry
fdry.1.2.9.2.2.1
None An entry in the Candidate Bootstrap Router Table.
Name, OID, and Syntax Access Description
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Multicast
PIM RP Set Table
The PIM RP Set Table contains information about candidate Rendezvous Points (RPs) for IP multicast groups. When the local Layer 3 Switch is the BSR, this information is obtained from the advertisements received from the Candidate-RP. When the local Layer 3 Switch is not the BSR, this information is obtained from the received RP-Set messages.
snPimCandidateBSRPortID
fdry.1.2.9.2.2.1.1
Syntax: Integer
Read-write
Identifies the IP address of the PIM interface:
• Bit 0 to bit 7 – Port number.
• Bit 8 to bit 11– Slot number.
snPimCandidateBSRIPAddress
fdry.1.2.9.2.2.1.2
Syntax: IpAddress
Read only Shows the unicast address of the candidate BSR.
Valid values: 1 – 32.
snPimCandidateBSRHashMaskLen
fdry.1.2.9.2.2.1.3
Syntax: Integer
Read-write
Indicates the hash mask value for this Layer 3 Switch as a candidate bootstrap router.
snPimCandidateBSRPreference
fdry.1.2.9.2.2.1.4
Syntax: Integer
Read-write
Indicates the preference value for this Layer 3 Switch as a candidate bootstrap router.
Valid values: 0 – 255
Default: 100
Name, OID, and Syntax Access Description
snPimRPSetTable
fdry.1.2.9.2.3
None The PIM RP Set Table
snPimRPSetEntry
fdry.1.2.9.2.3.1
None An entry in the PIM RP Set Table
snPimRPSetGroupAddress
fdry.1.2.9.2.3.1.1
Syntax: IpAddress
Read only Shows the IP multicast group address. This object plus the snPimRPSetGroupMask, form the group prefix for the Candidate-RP.
snPimRPSetMask
fdry.1.2.9.2.3.1.2
Syntax: IpAddress
Read only Shows the IP multicast group address. This object plus the “snPimRPSetGroupAddress” object form the group prefix for the Candidate-RP.
snPimRPSetIPAddress
fdry.1.2.9.2.3.1.3
Syntax: IpAddress
Read only Shows the IP address of the Candidate-RP.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 14-11
Foundry Management Information Base Reference
PIM RP Candidate Table
The PIM Rendezvous Point Table listing the IP multicast groups for which the local router is to advertise itself as a Candidate-RP. If this table is empty, then the local router will advertise itself as a Candidate-RP for all groups snPimEnable must be "enabled" before this table is read or written.
snPimRPSetHoldTime
fdry.1.2.9.2.3.1.4
Syntax: Integer
Read only Shows the holdtime, in seconds, of a Candidate-RP. If the local router is not the BSR, this value is 0.
Name, OID, and Syntax Access Description
snPimCandidateRPTable
fdry.1.2.9.2.4
None The PIM RP Candidate Table
snPimCandidateRPEntry
fdry.1.2.9.2.4.1
None An entry the PIM RP Candidate Table
snPimCandidateRPGroupAddress
fdry.1.2.9.2.4.1.1
Syntax: IpAddress
Read only Shows the IP multicast group address. This object combined with the snPimCandidateRPGroupMask object forms the group prefix for which the local router will advertise itself as a Candidate-RP.
snPimCandidateRPMask
fdry.1.2.9.2.4.1.2
Syntax: IpAddress
Read only Shows the multicast group address mask. This object combined with snPimCandidateRPGroupMask forms the group prefix for which the local router will advertise itself as a Candidate-RP.
snPimCandidateRPIPAddress
fdry.1.2.9.2.4.1.3
Syntax: IpAddress
Read-write
Indicates the unicast IP address of the interface that will be advertised as a Candidate-RP.
snPimCandidateRPRowStatus
fdry.1.2.9.2.4.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
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Multicast
DVMRPDistance Vector Multicast Routing Protocol (DVMRP) is one of the multicast routing protocol supported in Foundry’s Layer 3 Switches, such as the BigIron products.
The objects in this section apply to the DVMRP feature, if that feature is enabled in the Layer 3 Switch. For additional information on DVMRP, refer to the Foundry Enterprise Configuration and Management Guide.
The following sections present the objects and tables for configuring DVMRP:
• “Global DVMRP Objects” on page 14-13
• “DVMRP Virtual Interface Table” on page 14-15
• “DVMRP Neighbor Table” on page 14-16
• “DVMRP Route Table” on page 14-18
• “DVMRP Routing Next Hop Table” on page 14-19
• “DVMRP Virtual Interface Statistics Table” on page 14-19
Global DVMRP Objects
Name, OID, and Syntax Access Description
snDvmrpVersion
fdry.1.2.5.1.1
Syntax: Display string
Read only Shows the DVMRP version in the Layer 3 Switch. There can be up to 255 characters in this object.
snDvmrpEnable
fdry.1.2.5.1.2
Syntax: Integer
Read-write
Indicates if DVMRP is enabled on this Layer 3 Switch:
• disabled(0)
• enabled(1)
Default: disabled(0)
snDvmrpGenerationId
fdry.1.2.5.1.3
Syntax: Integer
Read only Shows the generation identifier for the routing process. This is used by neighboring Layer 3 Switches to determine if pruning information should be resent.
snDvmrpProbeInterval
fdry.1.2.5.1.4
Syntax: Integer
Read-write
Defines how often neighbor probe messages are sent to the ALL-DVMRP-ROUTERS IP multicast group address. A Layer 3 Switch’s probe message lists those neighbor DVMRP routers from which it has received probes.
Valid values: 5 – 30 seconds
Default: 10 seconds
snDvmrpReportInterval
fdry.1.2.5.1.5
Syntax: Integer
Read-write
Defines how often Layer 3 Switches propagate their complete routing tables to other DVMRP neighbor routers.
Valid values: 10 –2000 seconds
Default: 60 seconds
April 2008 © 2008 Foundry Networks, Inc. 14-13
Foundry Management Information Base Reference
snDvmrpTriggerInterval
fdry.1.2.5.1.6
Syntax: Integer
Read-write
Defines how often trigger updates, which reflect changes in the network topology, are sent. For example, changes in a network topology, including router up or down, or changes in the metric, would cause trigger updates to be sent.
Valid values: 5 –30 seconds
Default: 5 seconds
snDvmrpNeighborRouterTimeout
fdry.1.2.5.1.7
Syntax: Integer
Read-write
Specifies the how long a router waits before it determines that an attached DVMRP neighbor router as down.
Valid values: 40 – 8000 seconds
Default: 180 seconds
snDvmrpRouteExpireTime
fdry.1.2.5.1.8
Syntax: Integer
Read-write
Defines how long a route is considered valid in the absence of the next route update.
Valid values: 20 – 4000 seconds
Default: 200 seconds
snDvmrpRouteDiscardTime
fdry.1.2.5.1.9
Syntax: Integer
Read-write
Defines how long a router waits before it deletes a route.
Valid values: 40 – 8000 seconds
Default: 340 seconds
snDvmrpPruneAge
fdry.1.2.5.1.10
Syntax: Integer
Read-write
Defines how long a prune state will remain in effect for a source-routed multicast tree. After the prune age period expires, flooding will resume.
Valid values: 20 – 3600 seconds
Default: 180 seconds
snDvmrpGraftRetransmitTime
fdry.1.2.5.1.11
Syntax: Integer
Read-write
Defines how long a router that is sending a graft message will wait for a the first graft acknowledgement from an upstream router before re-transmitting that message. Subsequent retransmissions are sent at an interval twice that of the preceding interval.
Valid values: 5 – 3600 seconds
Default: 10 seconds
snDvmrpDefaultRoute
fdry.1.2.5.1.12
Syntax: IpAddress
Read-write
This is the IP address of a router that is connected to one of the directly attached subnet. If a multicast route is not present on the local router, this default route will be used for multicast forwarding. “snDvmrpEnable” must be set to “enabled” before this object can be written.
Name, OID, and Syntax Access Description
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Multicast
DVMRP Virtual Interface TableThe DVMRP Virtual Interface Table contains the router’s DVMRP virtual interfaces.
Name, OID, and Syntax Access Description
snDvmrpVInterfaceTable
fdry.1.2.5.1.13
None The DVMRP Virtual Interface Table
snDvmrpVInterfaceEntry
fdry.1.2.5.1.13.1
None An entry in the The DVMRP Virtual Interface Table.
This row augments ipMRouteInterfaceEntry in the IP Multicast MIB, where the threshold object resides.
snDvmrpVInterfaceVifIndex
fdry.1.2.5.1.13.1.1
Syntax: Integer
Read only The ifIndex value of this DVMRP virtual interface.
snDvmrpVInterfaceType
fdry.1.2.5.1.13.1.2
Syntax: Integer
Read-write
Indicates the type of this DVMRP virtual interface:
• tunnel(1) – Tunnel interface, for which the interface is a querier.
• subnet(3) – Physical interface, for which the interface is not a querier.
snDvmrpVInterfaceOperState
fdry.1.2.5.1.13.1.3
Syntax: Integer
Read only Shows the current state of this DVMRP virtual interface:
• up(1)
• down(2)
snDvmrpVInterfaceLocalAddress
fdry.1.2.5.1.13.1.4
Syntax: IpAddress
Read-write
Shows the IP address of the local end of this DVMRP virtual interface.
snDvmrpVInterfaceRemoteAddress
fdry.1.2.5.1.13.1.5
Syntax: IpAddress
Read-write
Shows the IP address of the remote end of this DVMRP virtual interface.
For a tunnel, enter the IP address of the neighboring router.
For a subnet, enter the subnet address.
snDvmrpVInterfaceRemoteSubnetMask
fdry.1.2.5.1.13.1.6
Syntax: IpAddress
Read only Shows the subnet mask for a directly connected subnet. For a tunnel, this should be 0.0.0.0.
snDvmrpVInterfaceMetric
fdry.1.2.5.1.13.1.7
Syntax: Integer
Read-write
Defines the distance metric for this DVMRP virtual interface. The router uses the metric when establishing reverse paths to some networks on directly attached interfaces.
Valid values: 1 – 31 hops
Default: 1
April 2008 © 2008 Foundry Networks, Inc. 14-15
Foundry Management Information Base Reference
DVMRP Neighbor TableThe DVMRP Neighbor Table lists the router’s DVMRP neighbors, as discovered by the receiving Neighbor Probe messages.
snDvmrpVInterfaceTtlThreshold
fdry.1.2.5.1.13.1.8
Syntax: Integer
Read-write
Defines the minimum value required in a packet in order for the packet to be forwarded out of the interface. For example, if the TTL for an interface is set at 10, then only those packets with a TTL value of 10 or more are forwarded. Likewise, if an interface is configured with a TTL Threshold value of 1, all packets received on that interface are forwarded.
Valid values: 1 – 64
Default: 1
snDvmrpVInterfaceAdvertiseLocal
fdry.1.2.5.1.13.1.9
Syntax: Integer
Read-write
Determines if advertising of this local route is enabled:
• disabled(0)
• enabled(1)
Default: enabled(1)
snDvmrpVInterfaceEncapsulation
fdry.1.2.5.1.13.1.10
Syntax: Integer
Read-write
Indicates if the encapsulation of the DVMRP control packets when using IPINIP encapsulation is enabled:
• disabled(0)
• enabled(1)
Default: disabled(0)
snDvmrpVInterfaceStatus
fdry.1.2.5.1.13.1.11
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snDvmrpNeighborTable
fdry.1.2.5.1.14
None The DVMRP Neighbor Table.
snDvmrpNeighborEntry
fdry.1.2.5.1.14.1
None An entry in the DVMRP Neighbor Table.
Name, OID, and Syntax Access Description
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Multicast
snDvmrpNeighborEntryIndex
fdry.1.2.5.1.14.1.1
Syntax: Integer
Read only The table entry index.
snDvmrpNeighborVifIndex
fdry.1.2.5.1.14.1.2
Syntax: Integer
Read only The value of VifIndex for the virtual interface used to reach this DVMRP neighbor.
snDvmrpNeighborAddress
fdry.1.2.5.1.14.1.3
Syntax: IpAddress
Read only Shows the IP address of the DVMRP neighbor for which this entry contains information.
snDvmrpNeighborUpTime
fdry.1.2.5.1.14.1.4
Syntax: Time ticks
Read only Shows the last time since this DVMRP neighbor became a neighbor of the local router.
snDvmrpNeighborExpiryTime
fdry.1.2.5.1.14.1.5
Syntax: Time ticks
Read only Shows the number of seconds remaining before this DVMRP neighbor will be aged out.
snDvmrpNeighborGenerationId
fdry.1.2.5.1.14.1.6
Syntax: Integer
Read only Shows the neighboring router’s generation identifier.
snDvmrpNeighborMajorVersion
fdry.1.2.5.1.14.1.7
Syntax: Integer
Read only Shows the neighboring router’s major DVMRP version number.
Valid values: 0 – 255
snDvmrpNeighborMinorVersion
fdry.1.2.5.1.14.1.8
Syntax: Integer
Read only Shows the neighboring router’s minor DVMRP version number.
Valid values: 0 – 255
snDvmrpNeighborCapabilities
fdry.1.2.5.1.14.1.9
Syntax: Integer
Read only Describes the neighboring router’s capabilities. The following shows the position of each bit:
Bit positionMeaning
3mtrace bit. If on, neighbor can handle mtrace requests
2generationID bit. If on, the neighbor sends its generationID in Probe messages
1prune bit. If on, he neighbor supports pruning
0leaf bit. If on, the neighbor has only one interface with other neighbors
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 14-17
Foundry Management Information Base Reference
DVMRP Route TableDVMRP uses a routing table instead of the unicast routing table. The DVMRP Route Table contains information on the DVMRP source and destination routes.
Name, OID, and Syntax Access Description
snDvmrpRouteTable
fdry.1.2.5.1.15
None The DVMRP Route Table
snDvmrpRouteEntry
fdry.1.2.5.1.15.1
None An entry in the DVMRP Route Table
snDvmrpRouteEntryIndex
fdry.1.2.5.1.15.1.1
Syntax: Integer
Read only The table entry index.
snDvmrpRouteSource
fdry.1.2.5.1.15.1.2
Syntax: IpAddress
Read only Shows the network address of the source. This object plus the value of the “snDvmrpRouteSourceMask” object identifies the sources of this entry.
snDvmrpRouteSourceMask
fdry.1.2.5.1.15.1.3
Syntax: IpAddress
Read only Shows the network mask of the source. This object plus the value of the “snDvmrpRouteSource” object identifies the sources of this entry.
snDvmrpRouteUpstreamNeighbor
fdry.1.2.5.1.15.1.4
Syntax: IpAddress
Read only Shows the address of the upstream neighbor (for example, RPF neighbor) from which IP datagrams were received.
snDvmrpRouteVifIndex
fdry.1.2.5.1.15.1.5
Syntax: Integer
Read only The value of snDvmrpVInterfaceVifIndex for the virtual interface on which IP datagrams sent by these sources are received.
snDvmrpRouteMetric
fdry.1.2.5.1.15.1.6
Syntax: Integer
Read only Shows the number of hops to the source subnet.
snDvmrpRouteExpiryTime
fdry.1.2.5.1.15.1.7
Syntax: Time ticks
Read only Shows the amount of time remaining before this entry will be aged out.
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Multicast
DVMRP Routing Next Hop TableThe DVMRP Routing Next Hop Table contains information on the nex hop for routing IP multicast datagrams.
DVMRP Virtual Interface Statistics TableThe DVMRP Virtual Interface Statistics Table provides information about the DVMRP routes.
Name, OID, and Syntax Access Description
snDvmrpRouteNextHopTable
fdry.1.2.5.1.16
None The DVMRP Routing Next Hop Table
snDvmrpRouteNextHopEntry
fdry.1.2.5.1.16.1
None An entry the DVMRP Routing Next Hop Table.
snDvmrpRouteNextHopSource
fdry.1.2.5.1.16.1.1
Syntax: IpAddress
Read only Shows the network mask of the source. This object plus the “snDvmrpRouteNextHopSourceMask” object identify the source of the next hop.
snDvmrpRouteNextHopSourceMask
fdry.1.2.5.1.16.1.2
Syntax: IpAddress
Read only Shows the network mask of the source. This object plus the “snDvmrpRouteNextHopSource” object identify the sources of the next hop.
snDvmrpRouteNextHopVifIndex
fdry.1.2.5.1.16.1.3
Syntax: Integer
Read only The snDvmrpVInterfaceVifIndex value of the virtual interface for the outgoing interface for this next hop.
snDvmrpRouteNextHopType
fdry.1.2.5.1.16.1.4
Syntax: Integer
Read only Identifies the type of router for the next hop:
• leaf(1) – There are no neighbors at the next hop
• branch(2) – Neighbors are attached to the next hop
Name, OID, and Syntax Access Description
snDvmrpVIfStatTable
fdry.1.2.5.1.17
None The DVMRP Virtual Interface Statistics Table
snDvmrpVIfStatEntry
fdry.1.2.5.1.17.1
None An entry in the DVMRP Virtual Interface Statistics Table
snDvmrpVIfStatVifIndex
fdry.1.2.5.1.17.1.1
Syntax: Integer
Read only The ifIndex value of this DVMRP virtual interface.
snDvmrpVIfStatInPkts
fdry.1.2.5.1.17.1.2
Syntax: Counter
Read only Shows the number of packets that have arrived on the DVMRP virtual interface.
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snDvmrpVIfStatOutPkts
fdry.1.2.5.1.17.1.3
Syntax: Counter
Read only Shows the number of packets that have been sent on the DVMRP virtual interface.
snDvmrpVIfStatInOctets
fdry.1.2.5.1.17.1.4
Syntax: Counter
Read only Shows the number of octets that have arrived on the DVMRP virtual interface.
snDvmrpVIfStatOutOctets
fdry.1.2.5.1.17.1.5
Syntax: Counter
Read only Shows the number of octets that have been sent on the DVMRP virtual interface.
snDvmrpVIfStatInProbePkts
fdry.1.2.5.1.17.1.6
Syntax: Counter
Read only Shows the number of probe packets that have arrived on the DVMRP virtual interface.
snDvmrpVIfStatOutProbePkts
fdry.1.2.5.1.17.1.7
Syntax: Counter
Read only Shows the number of probe packets that have been sent on the DVMRP virtual interface.
snDvmrpVIfStatDiscardProbePkts
fdry.1.2.5.1.17.1.8
Syntax: Counter
Read only Shows the number of probe packets that have been discarded by the DVMRP virtual interface.
snDvmrpVIfStatInRtUpdatePkts
fdry.1.2.5.1.17.1.9
Syntax: Counter
Read only Shows the number of route update packets that have arrived on the DVMRP virtual interface.
snDvmrpVIfStatOutRtUpdatePkts
fdry.1.2.5.1.17.1.10
Read only Shows the number of route update packets that have been sent on the DVMRP virtual interface.
snDvmrpVIfStatDiscardRtUpdatePkts
fdry.1.2.5.1.17.1.11
Syntax: Counter
Read only Shows the number of route update packets that have been discarded by the DVMRP virtual interface.
snDvmrpVIfStatInGraftPkts
fdry.1.2.5.1.17.1.12
Syntax: Counter
Read only Shows the number of graft packets that have arrived on the DVMRP virtual interface.
snDvmrpVIfStatOutGraftPkts
fdry.1.2.5.1.17.1.13
Syntax: Counter
Read only Shows the number of graft packets that have been sent on the DVMRP virtual interface.
Name, OID, and Syntax Access Description
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Multicast
MRP
Metro Ring TableThe Metro Ring Table contains information about Metro Ring Protocol (MRP) MIB objects.The MIB objects are supported on the following software releases:
• Multi-Service IronWare release 03.7.00 and later for the NetIron XMR Series
• Multi-Service IronWare software release 03.7.00 and later for the NetIron MLX Series
• Multi-Service IronWare software release 02.6.00 and later for the BigIron RX Series
snDvmrpVIfStatDiscardGraftPkts
fdry.1.2.5.1.17.1.14
Syntax: Counter
Read only Shows the number of graft packets that have been discarded by the DVMRP virtual interface.
snDvmrpVIfStatInGraftAckPkts
fdry.1.2.5.1.17.1.15
Syntax: Counter
Read only Shows the number of graft acknowledge packets that have arrived on the DVMRP virtual interface.
snDvmrpVIfStatOutGraftAckPkts
fdry.1.2.5.1.17.1.16
Syntax: Counter
Read only Shows the number of graft acknowledge packets that have been sent on the DVMRP virtual interface.
snDvmrpVIfStatDiscardGraftAckPkts
fdry.1.2.5.1.17.1.17
Syntax: Counter
Read only Shows the number of graft acknowledge packets that have been discarded by the DVMRP virtual interface.
snDvmrpVIfStatInPrunePkts
fdry.1.2.5.1.17.1.18
Syntax: Counter
Read only Shows the number of prune packets that have arrived on the DVMRP virtual interface.
snDvmrpVIfStatOutPrunePkts
fdry.1.2.5.1.17.1.19
Syntax: Counter
Read only Shows the number of prune packets that have been sent on the DVMRP virtual interface.
snDvmrpVIfStatDiscardPrunePkts
fdry.1.2.5.1.17.1.20
Syntax: Counter
Read only Shows the number of prune packets that have been discarded by the DVMRP virtual interface.
Name, OID, and Syntax Access Description
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Name, OID, and Syntax Access Description
snMetroRingTable
fdry.1.1.3.29.2.1
Syntax: SEQUENCE of SnMetroRingEntry
None The Metro Ring Table.
snMetroRingEntry
fdry.1.1.3.29.2.1.1
Syntax: SnMetroRingEntry
None An entry in the Metro Ring Table.
snMetroRingVlanId
fdry.1.1.3.29.2.1.1.1
Syntax: Integer32
None Identifies a VLAN that controls the Metro Ring.
snMetroRingId
fdry.1.1.3.29.2.1.1.2
Syntax: Integer32
None The Metro Ring identifier.
snMetroRingConfigState
fdry.1.1.3.29.2.1.1.3
Syntax: Integer
Read write The state of the Metro Ring.
snMetroRingRole
fdry.1.1.3.29.2.1.1.4
Syntax: Integer [other(1), master(2), member(3)]
Read write Shows the Metro Ring role:
other(1) - non of the cases belowmaster(2) - device which originates RHP packetsmember(3) - device which forwards RHP packets
snMetroRingHelloTime
fdry.1.1.3.29.2.1.1.5
Syntax: Integer32
Read write The time interval to periodically transmit ring health protocol (RHP) in milliseconds.
snMetroRingPreforwardingTime
fdry.1.1.3.29.2.1.1.6
Syntax: Integer32
Read write The time interval that a metro ring stays in preforwarding state before changing to forwarding state (in milliseconds).
snMetroRingPort1
fdry.1.1.3.29.2.1.1.7
Syntax: InterfaceIndex
Read write The ifIndex value of port 1 to configure into the metro ring.
snMetroRingPort2
fdry.1.1.3.29.2.1.1.8
Syntax: InterfaceIndex
Read write The ifIndex value of port 2 to configure into the metro ring.
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Multicast
snMetroRingName
fdry.1.1.3.29.2.1.1.9
Syntax: DisplayString
Read write The description of the metro ring.
snMetroRingRowStatus
fdry.1.1.3.29.2.1.1.10
Syntax: Integer [other(1), valid(2), delete(3), create(4)]
Read write Creates and deletes rows in the table, and controls whether they are used. Values are: delete(3) - deletes a rowcreate(4) - creates a new row. If the row exists, then a SET with a value of create(4) returns a badValue error. Deleted rows disappear immediately. The following values can be returned on reads:noSuchName - no such rowother(1) - some other casesvalid(2) - the row exists and is valid.
snMetroRingOperState
fdry.1.1.3.29.2.1.1.11
Syntax: Integer [other(1), enabled(2), disabled(3)]
Read only Shows the metro ring operational state.
snMetroRingTopoGroupId
fdry.1.1.3.29.2.1.1.12
Syntax: Integer32
Read only The ID of the topology group that controls the metro ring.
snMetroRingRHPTransmitted
fdry.1.1.3.29.2.1.1.13
Syntax: Counter32
Read only The Ring Health Protocol (RHP) transmitted counter.
snMetroRingRHPReceived
fdry.1.1.3.29.2.1.1.14
Syntax: Counter32
Read only The counter for transmitted Ring Health Protocol (RHP)
snMetroRingStateChanged
fdry.1.1.3.29.2.1.1.15
Syntax: Counter32
Read only The counter for the number of times the ring state has changed.
snMetroRingTCRBPDUReceived
fdry.1.1.3.29.2.1.1.16
Syntax: Counter32
Read only The topology change protocol received counter.
snMetroRingPriPort
fdry.1.1.3.29.2.1.1.17
Syntax: InterfaceIndex
Read only The ifIndex value of the primary port.
snMetroRingSecPort
fdry.1.1.3.29.2.1.1.18
Syntax: InterfaceIndex
Read only The ifIndex value of the secondary port.
Name, OID, and Syntax Access Description
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snMetroRingPriPortState
fdry.1.1.3.29.2.1.1.19
Syntax: Integer
Read only The state of the metro ring primary port: other(1) - none of the cases belowpreforwarding(2) - port transmits RHP packets, port does not transmit data packets.forwarding(3) - port transmits RHP and data packetsblocking(4) - port receives RHP packets, does not receive data packetsdisabled(5) - port is disabled from the metro ring
snMetroRingSecPortState
fdry.1.1.3.29.2.1.1.20
Syntax: Integer
Read only The state of the metro ring secondary port:other(1) - none of the cases belowpreforwarding(2) - port transmits RHP packets, port does not transmit data packets.forwarding(3) - port transmits RHP and data packetsblocking(4) - port receives RHP packets, does not receive data packetsdisabled(5) - port is disabled from the metro ring
snMetroRingPriPortType
fdry.1.1.3.29.2.1.1.21
Syntax: Integer
Read only The metro ring primary port type:other(1) - none of the cases belowregular(2) - port is configured to operate on a single ringtunnel(3) - port is configured to operate on multiple rings
snMetroRingSecPortType
fdry.1.1.3.29.2.1.1.22
Syntax: Integer
Read only The metro ring secondary port type:other(1) - none of the cases belowregular(2) - port is configured to operate on a single ringtunnel(3) - port is configured to operate on multiple rings
snMetroRingPriPortActivePort
fdry.1.1.3.29.2.1.1.23
Syntax: InterfaceIndex
Read only The ifIndex value of the active primary port.
snMetroRingSecPortActivePort
fdry.1.1.3.29.2.1.1.24
Syntax: InterfaceIndex
Read only The ifIndex value of the active secondary port.
Name, OID, and Syntax Access Description
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Chapter 15VLANs
Refer to the following sections to determine what MIB objects are available for VLANs:
• “VLAN By Port Information Table” on page 15-1
• “VLAN by Port Membership Table” on page 15-6
• “Port VLAN Configuration Table” on page 15-7
• “VLAN by Protocol Configuration Table” on page 15-12
• “VLAN by IP Subnet Configuration Table” on page 15-14
• “VLAN by IPX Network Configuration Table” on page 15-17
• “VLAN by AppleTalk Cable Configuration Table” on page 15-19
Beginning with the NetIron XMR and NetIron MLX release 03.9.00 and BigIron RX 02.6.00 release, see “Support for the NetIron XMR, NetIron MLX and BigIron RX” on page 15-21
Refer to the Foundry Switch and Router Installation and Basic Configuration Guide for details on the features discussed in this chapter.
VLAN By Port Information TableThis table applies to a Layer 2 device if the object “snSwGroupOperMode” on page 6-15 is configured with a value of vlanByPort(2), allowing switch ports to be configured with a VLAN ID. Each VLAN switch port could have a number of VLAN IDs. Unless indicated, the objects in this table apply to all Foundry devices.
Name, OID, and Syntax Access Description
snVLanByPortTable
fdry.1.1.3.2.1
None The VLAN by Port Information Table for Layer 2 switches.
snVLanByPortEntry
fdry.1.1.3.2.1.1
None An entry in the VLAN By Port Information table.
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snVLanByPortVLanIndex
fdry.1.1.3.2.1.1.1
Syntax: Integer
Read only Shows the index to this table.
The VLAN ID number must not be greater than the value of the object “snVLanGroupVlanMaxEntry” on page 6-17. Each VLAN Identifier can be a member of multiple ports.
snVLanByPortVLanId
fdry.1.1.3.2.1.1.2
Read-write
The VLAN ID index to the this table. Each VLAN Identifier can be a member of multiple ports.
Valid values: 1 – 4095.
snVLanByPortPortMask
fdry.1.1.3.2.1.1.3
Syntax: PortMask
Read-write
Applies only to ServerIron Stackable devices.
Shows the standalone switch VLAN port membership. This object was obsoleted for Chassis devices.
snVLanByPortQos
fdry.1.1.3.2.1.1.4
Syntax: Integer
Read-write
Shows the QoS settings for the devices.
For Stackable device, the values can be one of the following:
• low(0) – low priority
• high(1) – high priority
For Chassis devices, the value can be one of the following:
• level0(0)
• level1(1)
• level2(2)
• level3(3)
• level4(4)
• level5(5)
• level6(6)
• level7(7)
snVLanByPortStpMode
fdry.1.1.3.2.1.1.5
Syntax: Integer
Read-write
Indicates whether or not Spanning Tree Protocol (STP) is enabled:
• disabled(0)
• enabled(1)
snVLanByPortStpPriority
fdry.1.1.3.2.1.1.6
Syntax: Integer
Read-write
Shows the value of the dot1dStpPriority, which is the first two octets of the STP bridge ID. The STP bridge ID is eight octets long. This object contains the writable portion of the bridge ID.
The last six octets are contained in the dot1dBaseBridgeAddress of the object “snVLanByPortBaseBridgeAddress”.
Valid values: 1 – 65535.
Name, OID, and Syntax Access Description
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VLANs
snVLanByPortStpGroupMaxAge
fdry.1.1.3.2.1.1.7
Syntax: Integer
Read-write
Shows the value of dot1dStpBridgeMaxAge, which is the last six octets or the STP bridge ID. All bridges use this object for MaxAge when this bridge is acting as the root.
NOTE: 802.1D-1990 specifies that the range for this parameter is related to the value of dot1dStpBridgeHelloTime in the object “snVLanByPortStpGroupHelloTime” .
The granularity of this timer is specified by 802.1D-1990 to be one second. An agent may return a badValue error if a set is attempted to a value which is not a whole number of seconds.
(Refer to RFC 1493 Bridge MIB.)
Valid values: 6 – 40.
snVLanByPortStpGroupHello Time
fdry.1.1.3.2.1.1.8
Syntax: Integer
Read-write
Shows the value of the dot1dStpBridgeHelloTime, which is the value used by all bridges when this bridge is acting as the root.
The granularity of this timer is specified by 802.1D-1990 to be one second. An agent may return a badValue error if a set is attempted to a value which is not a whole number of seconds.
(Refer to RFC1493 Bridge MIB).
Valid values: 1 – 10
snVLanByPortStpGroupForwardDelay
fdry.1.1.3.2.1.1.9
Syntax: Integer
Read-write
Shows the value of dot1dStpBridgeForwardDelay, which is the value used by all bridges for ForwardDelay when this bridge is acting as the root.
NOTE: 802.1D-1990 specifies that the range for this parameter is related to the value of dot1dStpBridgeMaxAge, which is in the object “snVLanByPortStpGroupMaxAge” .
The granularity of this timer is specified by 802.1D-1990 to be one second. An agent may return a badValue error if a set is attempted to a value which is not a whole number of seconds.
(Refer to RFC1493 Bridge MIB).
Valid values: 2 –30.
Name, OID, and Syntax Access Description
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snVLanByPortRowStatus
fdry.1.1.3.2.1.1.10
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snVLanByPortOperState
fdry.1.1.3.2.1.1.11
Syntax: Integer
Read only Activates the VLAN entry and sets it to running mode.
• notActivated(0) – The VLAN entry is not activated and not in running mode
• activated(1) – The VLAN entry is activated and in running mode
Default: notActivated(0)
snVLanByPortBaseNumPorts
fdry.1.1.3.2.1.1.12
Syntax: Integer
Read only Indicates the number of ports controlled by this bridging entity.
snVLanByPortBaseType
fdry.1.1.3.2.1.1.13
Syntax: Integer
Read only Indicates what type of bridging this bridge can perform. If a bridge is actually performing a certain type of bridging this will be indicated by entries in the port table for the given type.
• unknown(1)
• transparent-only(2)
• sourceroute-only(3)
• srt(4)
snVLanByPortStpProtocolSpecification
fdry.1.1.3.2.1.1.14
Syntax: Integer
Read only Shows what version of STP is being run:
• unknown(1)
• decLb100(2) – Indicates the DEC LANbridge 100 Spanning Tree protocol
• ieee8021d(3) – Returns "ieee8021d(3)". If future versions of the IEEE Spanning Tree Protocol are released that are incompatible with the current version, a new value will be defined.
Name, OID, and Syntax Access Description
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VLANs
snVLanByPortStpMaxAge
fdry.1.1.3.2.1.1.15
Syntax: Integer
Read only Shows the value of dot1dStpMaxAge, which is the maximum age that the STP information can exist before it is discarded. The STP information is the information learned from the network. The value of this object is in hundredths of a second, and is the actual value that this bridge is currently using.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortStpHelloTime
fdry.1.1.3.2.1.1.16
Syntax: Timeout
Read only Shows the value of dot1dStpHelloTime, which is the interval between the transmission of Configuration bridge PDUs by this node. This value applies to any port when it is the root of the spanning tree or is trying to become the root. This is the actual value that this bridge is currently using.
This value is in hundredths of a second.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortStpHoldTime
fdry.1.1.3.2.1.1.17
Syntax: Integer
Read only Shows the value of dot1dStpHoldTime, which is the interval when no more than two configuration bridge PDUs shall be transmitted by this node. The interval is in units of hundredths of a second.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortStpForwardDelay
fdry.1.1.3.2.1.1.18
Syntax: Timeout
Read only Shows the value of dot1dStpForwardDelay, which is the time that controls how long a port stays in the listening and learning states as its spanning state moves towards the forwarding state.
This value is also used when a topology change has been detected and is underway. The value is used to age all dynamic entries in the Forwarding Database.
This value is the one that this bridge is currently using, in contrast to dot1dStpBridgeForwardDelay in the object “snVLanByPortStpGroupForwardDelay”, which is the value that this bridge and all others would start using when this bridge becomes the root.
This time value is in hundredths of a second,
(Refer to RFC1493 Bridge MIB.)
snVLanByPortStpTimeSinceTopologyChange
fdry.1.1.3.2.1.1.19
Syntax: Time ticks
Read only Shows the time since the last time the bridge detected a topology change. This time is in hundredths of a second.
snVLanByPortStpTopChanges
fdry.1.1.3.2.1.1.20
Syntax: Counter
Read only Shows the total number of topology changes detected by this bridge since the management entity was last reset or initialized.
snVLanByPortStpRootCost
fdry.1.1.3.2.1.1.21
Syntax: Integer
Read only Shows the value of dot1dStpRootCost, which is the cost of the path to the root as seen from this bridge.
(Refer to RFC1493 Bridge MIB.)
Name, OID, and Syntax Access Description
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VLAN by Port Membership TableThe following table is the Port VLAN (Layer 2 VLAN) port membership table.
snVLanByPortStpRootPort
fdry.1.1.3.2.1.1.22
Syntax: Integer
Read only Shows the value of dot1dStpRootPort, which is the number of the port that offers the lowest cost path from this bridge to the root bridge. (Refer to RFC1493 Bridge MIB.)
snVLanByPortStpDesignatedRoot
fdry.1.1.3.2.1.1.23
Syntax: BridgeId
Read only Shows the value of dot1dStpDesignatedRoot, which is the bridge ID of the root of the spanning tree as determined by STP as executed by this node. This value is used as the Root Identifier parameter in all Configuration Bridge PDUs originated by this node.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortBaseBridgeAddress
fdry.1.1.3.2.1.1.24
Syntax: BridgeId
Read only Indicates the value of the dot1dBaseBridgeAddress, which is the MAC address used by this bridge when it must be referred to in a unique fashion.
It is recommended that this is the smallest MAC address of all ports that belong to this bridge; however it must be unique. When concatenated with dot1dStpPriority a unique BridgeIdentifier is formed which is used in the STP.
snVLanByPortVLanName
fdry.1.1.3.2.1.1.25
Syntax: Display string
Read-write
Indicates the name of the community string that is allowed to access the VLAN.
Valid values: Up to 32 characters.
snVLanByPortRouterIntf
fdry.1.1.3.2.1.1.26
Syntax: Integer
Read-write
Is optional and applies only to routers.
It shows the ID of the virtual interface of a router to the VLAN.
If an SNMP-Get value is zero, then this object was not configured.
Valid values: 1 – 60.
snVLanByPortChassisPortMask
fdry.1.1.3.2.1.1.27
Syntax: Octet string
Read-write
Applies only to devices running Release 07.1.00 and earlier. It is replaced by “snVLanByPortPortList” for later releases.
It shows the VLAN switch port membership.
This object has 32 octets.
snVLanByPortPortList
fdry.1.1.3.2.1.1.28
Syntax: Octet string
Read-write
Applies to all Foundry devices except ServerIron products.
It lists the membership of a VLAN By Port. Each port index is a 16-bit integer in big endian order. The first 8-bits are the slot number, the other 8-bits are the port number.
Name, OID, and Syntax Access Description
snVLanByPortMemberTable
fdry.1.1.3.2.6
None This table is used to create or delete a port VLAN (Layer 2 VLAN) entry.
Name, OID, and Syntax Access Description
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VLANs
EXAMPLE:
If you want to delete port 11/14 (untagged) from VLAN 1964, then add it to VLAN 104, enter the following lines:
/* 654=ifIndex of 11/14 (64*10+14), value 3=delete*/SetRequest(snVLanByPortMemberRowStatus.1964.654=3)
/* 654=ifIndex of 11/14 (64*10+14), value 4=create*/SetRequest(snVLanByPortMemberRowStatus.104.654=4)
The first line deletes port 11/14 from VLAN 1964. The second line adds port 11/14 to VLAN 104.
Port VLAN Configuration Table
snVLanByPortMemberEntry
fdry.1.1.3.2.6.1
None An entry in the Port VLAN Port Membership table.
snVLanByPortMemberVLanId
fdry.1.1.3.2.6.1.1
Syntax: Integer
Read only The VLAN identifier (VLAN ID).
Valid values: 1 – 4095 VLAN IDs.
snVLanByPortMemberPortId
fdry.1.1.3.2.6.1.2
Syntax: Integer
Read only The ifIndex which is a member of the port VLAN.
snVLanByPortMemberRowStatus
fdry.1.1.3.2.6.1.3
Syntax: Integer
Read-write Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• other(1) – Some other case
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snVLanByPortCfgTable
fdry.1.1.3.2.7
None The Port VLAN (Layer 2 VLAN) configuration table.
snVLanByPortCfgEntry
fdry.1.1.3.2.7.1
None An entry of the port VLAN configuration table.
Name, OID, and Syntax Access Description
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snVLanByPortCfgVLanId
fdry.1.1.3.2.7.1.1
Syntax: Integer
Read-write The VLAN ID index to this table. Each VLAN Identifier can be a member of multiple ports.
Valid values: 1 – 4095.
snVLanByPortCfgQos
fdry.1.1.3.2.7.1.2
Syntax: Integer
Read-write Shows the quality of service settings for the devices.
For Stackable devices, the values can be one of the following:
• low(0) – low priority
• high(1) – high priority
For Chassis devices, the value can be one of the following:
• level0(0)
• level1(1)
• level2(2)
• level3(3)
• level4(4)
• level5(5)
• level6(6)
• level7(7)
snVLanByPortCfgStpMode
fdry.1.1.3.2.7.1.3
Syntax: Integer
Read-write Indicates whether or not Spanning Tree Protocol (STP) is enabled:
• disabled(0)
• enabled(1)
The following values are supported on FES, FWSX, and FastIron SuperX software releases 02.2.00 and later:
• disabled(0)
• enableStp(1)
• enableRstp(2)
snVLanByPortCfgStpPriority
fdry.1.1.3.2.7.1.4
Syntax: Integer
Read-write Shows the value of the dot1dStpPriority, which is the first two octets of the STP or RSTP bridge ID. The STP and RSTP bridge IDs are eight octets long. This object contains the writable portion of the bridge ID.
The last six octets are contained in the dot1dBaseBridgeAddress of the object “snVLanByPortBaseBridgeAddress.”
Valid values: 1 – 65535.
Name, OID, and Syntax Access Description
15-8 © 2008 Foundry Networks, Inc. April 2008
VLANs
snVLanByPortCfgStpGroupMaxAge
fdry.1.1.3.2.7.1.5
Syntax: Integer
Read-write Shows the value of dot1dStpBridgeMaxAge, which is the last six octets or the STP or RSTP bridge ID. All bridges use this object for MaxAge when this bridge is acting as the root.
NOTE: 802.1D-1990 specifies that the range for this parameter is related to the value of dot1dStpBridgeHelloTime in the object “snVLanByPortStpGroupHelloTime” .
The granularity of this timer is specified by 802.1D-1990 to be one second. An agent may return a badValue error if a set is attempted to a value which is not a whole number of seconds.
(Refer to RFC 1493 Bridge MIB.)Valid values: 6 – 40.
snVLanByPortCfgStpGroupHello Time
fdry.1.1.3.2.7.1.6
Syntax: Integer
Read-write Shows the value of the dot1dStpBridgeHelloTime, which is the value used by all bridges when this bridge is acting as the root.
The granularity of this timer is specified by 802.1D-1990 to be one second. An agent may return a badValue error if a set is attempted to a value which is not a whole number of seconds.
(Refer to RFC1493 Bridge MIB.)
Valid values: 1 – 10
snVLanByPortCfgStpGroupForwardDelay
fdry.1.1.3.2.7.1.7
Syntax: Integer
Read-write Shows the value of dot1dStpBridgeForwardDelay, which is the value used by all bridges for ForwardDelay when this bridge is acting as the root.
NOTE: 802.1D-1990 specifies that the range for this parameter is related to the value of dot1dStpBridgeMaxAge, which is in the object “snVLanByPortStpGroupMaxAge” .
The granularity of this timer is specified by 802.1D-1990 to be one second. An agent may return a badValue error if a set is attempted to a value which is not a whole number of seconds.
(Refer to RFC1493 Bridge MIB).
Valid values: 2 – 30.
snVLanByPortCfgBaseNumPorts
fdry.1.1.3.2.7.1.8
Syntax: Integer
Read only The number of ports controlled by this bridging entity.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 15-9
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snVLanByPortCfgBaseType
fdry.1.1.3.2.7.1.9
Syntax: Integer
Read only Indicates what type of bridging this bridge can perform. If a bridge is actually performing a certain type of bridging this will be indicated by entries in the port table for the given type.
• unknown(1)
• transparent-only(2)
• sourceroute-only(3)
• srt(4)
snVLanByPortCfgStpProtocolSpecification
fdry.1.1.3.2.7.1.10
Syntax: Integer
Read only Shows what version of STP is being run:
• unknown(1)
• decLb100(2) – Indicates the DEC LANbridge 100 Spanning Tree protocol
• ieee8021d(3) – Return "ieee8021d(3)". If future versions of the IEEE Spanning Tree Protocol are released that are incompatible with the current version, a new value will be defined.
snVLanByPortCfgStpMaxAge
fdry.1.1.3.2.7.1.11
Syntax: Integer
Read only Shows the value of dot1dStpMaxAge, which is the maximum age that the STP information can exist before it is discarded. The STP information is learned from the network. The value of this object is in hundredths of a second, and is the actual value that this bridge is currently using.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortCfgStpHelloTime
fdry.1.1.3.2.7.1.12
Syntax: Timeout
Read only Shows the value of dot1dStpHelloTime, which is the interval between the transmission of Configuration bridge PDUs by this node. This value applies to any port when it is the root of the spanning tree or is trying to become the root. This is the actual value that this bridge is currently using.
This value is in hundredths of a second.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortCfgStpHoldTime
fdry.1.1.3.2.7.1.13
Syntax: Integer
Read only Shows the value of dot1dStpHoldTime, which is the interval when no more than two Configuration bridge PDUs shall be transmitted by this node. The interval is in units of hundredths of a second.
(Refer to RFC1493 Bridge MIB.)
Name, OID, and Syntax Access Description
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VLANs
snVLanByPortCfgStpForwardDelay
fdry.1.1.3.2.7.1.14
Syntax: Timeout
Read only Shows the value of dot1dStpForwardDelay, which controls how fast a port changes its spanning state when moving towards the forwarding state. The value determines how long the port stays in each of the listening and learning states, which precede the forwarding state. This value is also used, when a topology change has been detected and is underway, to age all dynamic entries in the forwarding database.
NOTE: This value is the one that this bridge is currently using in contrast to dot1dStpBridgeForwardDelay, which is the value that this bridge and all others would start using should this bridge become the root.
This value is measured in hundredths of a second.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortCfgStpTimeSinceTopologyChange
fdry.1.1.3.2.7.1.15
Syntax: Time ticks
Read only Shows the time since the last topology change was detected by the bridge entity. This time is in hundredths of a second.
snVLanByPortCfgStpTopChanges
fdry.1.1.3.2.7.1.16
Syntax: Counter
Read only Shows the total number of topology changes detected by this bridge since the management entity was last reset or initialized.
snVLanByPortCfgStpRootCost
fdry.1.1.3.2.7.1.17
Syntax: Integer
Read only Shows the value of dot1dStpRootCost, which is the cost of the path to the root as seen from this bridge.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortCfgStpRootPort
fdry.1.1.3.2.7.1.18
Syntax: Integer
Read only Shows the value of dot1dStpRootPort, which is the port number of the port which offers the lowest cost path from this bridge to the root bridge.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortCfgStpDesignatedRoot
fdry.1.1.3.2.7.1.19
Syntax: BridgeId
Read only Shows the dot1dStpDesignatedRoot, which is the bridge identifier of the root of the spanning tree as determined by the Spanning Tree Protocol as executed by this node. This value is used as the root identifier parameter in all configuration bridge PDUs originated by this node.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortCfgBaseBridgeAddress
fdry.1.1.3.2.7.1.20
Syntax: MAC address
Read only Shows the MAC address used by this bridge when it must be referred to in a unique fashion. It is recommended that this be the numerically smallest MAC address of all ports that belong to this bridge, however, it is only required to be unique. When concatenated with dot1dStpPriority a unique bridge identifier is formed which is used in the Spanning Tree Protocol.
snVLanByPortCfgVLanName
fdry.1.1.3.2.7.1.21
Syntax: Display string
Read-write Shows the name of the VLAN community string.
Valid values: Up to 32 characters.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 15-11
Foundry Management Information Base Reference
VLAN by Protocol Configuration Table The following table applies to protocol VLANs. Unless otherwise specified in the description for an object, all objects in the table apply to all Foundry devices.
snVLanByPortCfgRouterIntf
fdry.1.1.3.2.7.1.22
Syntax: Integer
Read-write This object is optional. It identifies the virtual interface for the router to the VLAN, and applies only to the router. If an SNMP-Get value is zero, that means this object was not configured.
snVLanByPortCfgRowStatus
fdry.1.1.3.2.7.1.23
Syntax: Integer
Read-write Determines whether or not the VLAN will be deleted:
• other(1)
• valid(2)
• delete(3)
snVLanByPortCfgStpVersion
fdry.1.1.3.2.7.1.24
Syntax: Integer
Supported on FES, FWSX, and FastIron SuperX software releases 02.2.00 and later
Read-write Shows the version of Spanning Tree Protocol the bridge is currently running.
• stpCompatible(0) – STP (IEEE 802.1D)
• rstp(2) – RSTP (IEEE 802.1w)
Name, OID, and Syntax Access Description
snVLanByProtocolTable
fdry.1.1.3.2.2
None The VLAN by Protocol Configuration Table.
snVLanByProtocolEntry
fdry.1.1.3.2.2.1
None An entry in the VLAN By Protocol Configuration Table.
snVLanByProtocolVLanId
fdry.1.1.3.2.2.1.1
Read only Shows the VLAN ID index to both the VLAN By Port Info Table and this table.
snVLanByProtocolIndex
fdry.1.1.3.2.2.1.2
Syntax: Integer
Read only Shows the protocol used by this VLAN.
The following IP/IPX protocols are used by VLANs in Layer 3 VLAN:
• IP(1)
• IPX(2)
The following protocols are used in Layer 2 bridging:
• appleTalk(3)
• decNet(4)
• netBios(5)
• others(6) – other protocols which are defined here.
Name, OID, and Syntax Access Description
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VLANs
snVLanByProtocolDynamic
fdry.1.1.3.2.2.1.3
Syntax: Integer
Read-write
Applies to only to switches.
Indicates whether or not dynamic port inclusion is enabled:
• disabled(0)
• enabled(1)
snVLanByProtocolStaticMask
fdry.1.1.3.2.2.1.4
Syntax: PortMask
Read-write
Applies to ServerIron stackable devices. It indicates the standalone switch Protocol VLAN port membership (portmask) applied in static mode.
snVLanByProtocolExcludeMask
fdry.1.1.3.2.2.1.5
Syntax: PortMask
Read-write
Applies to ServerIron stackable devices. It indicates the standalone switch Protocol VLAN port membership (portmask) applied in exclusive mode.
snVLanByProtocolRouterIntf
fdry.1.1.3.2.2.1.6
Syntax: Integer
Read-write
Applies to routers only and is optional. It shows the virtual interface of a router to the VLAN.
This object is not configured if an SNMP-Get is equal to zero
snVLanByProtocolRowStatus
fdry.1.1.3.2.2.1.7
Syntax: Integer
Read-write
Applies to all Foundry devices, except for ServerIron products.
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snVLanByProtocolDynamicMask
fdry.1.1.3.2.2.1.8
Syntax: PortMask
Read only Applies only to stackable ServerIron products. It shows the portmask, which is the standalone switch Protocol VLAN active port membership.
This object was obsoleted for Chassis devices.
snVLanByProtocolChassisStaticMask
fdry.1.1.3.2.2.1.9
Syntax: Octet string
Read-write
Applies to all Foundry devices, except for ServerIron products.
This object has 32 octets. It has been obsoleted after Release 07.1.00 and replaced by the object “snVLanByProtocolStaticPortList” .
For Release 07.1.00 and earlier, this object shows the Chassis Protocol VLAN port membership applied in static mode.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 15-13
Foundry Management Information Base Reference
VLAN by IP Subnet Configuration TableThe following table applies to protocol VLANs that use the IP routing protocol. Unless otherwise stated in the object description, all objects in this table apply to all Foundry devices.
The remaining objects for IP are presented in the chapter “Global Router and IP” on page 18-1.
snVLanByProtocolChassisExcludeMask
fdry.1.1.3.2.2.1.10
Syntax: Octet string
Read-write
Applies to all Foundry devices, except for ServerIron products.
This object has 32 octets. It has been obsoleted after Release 07.1.00 and replaced by the object “snVLanByProtocolExcludePortList” .
For Release 07.1.00 and earlier, this object shows the Chassis Protocol VLAN port membership applied in exclusive mode.
snVLanByProtocolChassisDynamicMask
fdry.1.1.3.2.2.1.11
Syntax: Octet string
Read-write
Applies to all Foundry devices, except for ServerIron products.
This object has 32 octets. It has been obsoleted after Release 07.1.00 and replaced by the object “snVLanByProtocolDynamicPortList”.
For Release 07.1.00 and earlier, this object shows the Chassis Protocol VLAN active port membership.
snVLanByProtocolVLanName
fdry.1.1.3.2.2.1.12
Syntax: Display string
Read-write
Shows the name of the community string that is allowed to access the VLAN.
Valid values: Up to 32 characters.
snVLanByProtocolStaticPortList
fdry.1.1.3.2.2.1.13
Syntax: Octet string
Read-write
Applies to all Foundry devices, except for ServerIron products.
This object is an index of ports that are the configured to be members of the Protocol VLAN. Each port index is a 16-bit integer in big endian order. The first 8 bits are the slot number; the other 8 bits are the port number.
snVLanByProtocolExcludePortList
fdry.1.1.3.2.2.1.14
Syntax: Octet string
Read-write
Applies to all Foundry devices, except for ServerIron products.
This object is an index of ports that are excluded from port membership of the Protocol VLAN. Each port index is a 16-bit integer in big endian order. The first 8 bits are the slot number; the other 8 bits are the port number.
snVLanByProtocolDynamicPortList
fdry.1.1.3.2.2.1.15
Syntax: Octet string
Read only Applies to all Foundry devices, except for ServerIron products.
This object is an index of ports that can dynamically join the port membership of the Protocol VLAN. Each port index is a 16-bit integer in big endian order. The first 8 its are the slot number; the other 8 bits are the port number.
Name, OID, and Syntax Access Description
snVLanByIpSubnetTable
fdry.1.1.3.2.3
None The VLAN by IP Subnet Configuration Table.
Name, OID, and Syntax Access Description
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VLANs
snVLanByIpSubnetEntry
fdry.1.1.3.2.3.1
None An entry in the VLAN By IP Subnet Configuration table.
snVLanByIpSubnetVLanId
fdry.1.1.3.2.3.1.1
Syntax: Integer
Read only Shows the VLAN ID index to both of the VLAN By Port Info Table and this table.
Valid values: 1 – 4095.
snVLanByIpSubnetIpAddress
fdry.1.1.3.2.3.1.2
Syntax: IpAddress
Read only Shows the IP address for the subnet of the protocol-based IP VLAN.
snVLanByIpSubnetSubnetMask
fdry.1.1.3.2.3.1.3
Syntax: IpAddress
Read only Subnet mask associated with the subnet IP address.
snVLanByIpSubnetDynamic
fdry.1.1.3.2.3.1.4
Syntax: Integer
Read-write
Applies only to switches.
Indicates whether or not dynamic port inclusion is enabled:
• disabled(0)
• enabled(1)
snVLanByIpSubnetStaticMask
fdry.1.1.3.2.3.1.5
Syntax: PortMask
Read-write
Applies only to stackable ServerIron products.
It shows the port membership of the standalone switch VLAN by Subnet in static mode.
snVLanByIpSubnetExcludeMask
fdry.1.1.3.2.3.1.6
Syntax: PortMask
Read-write
Applies only to stackable ServerIron products.
It shows the port membership of the standalone switch VLAN by Subnet in exclusive mode.
snVLanByIpSubnetRouterIntf
fdry.1.1.3.2.3.1.7
Syntax: Integer
Read-write
Applies only to routers and is optional. It shows the virtual interface of a router to the VLAN.
Valid values: 0 – 60. It is not configured if an SNMP-Get is equal to zero.
snVLanByIpSubnetRowStatus
fdry.1.1.3.2.3.1.8
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 15-15
Foundry Management Information Base Reference
snVLanByIpSubnetDynamicMask
fdry.1.1.3.2.3.1.9
Syntax: PortMask
Read only Applies only to ServerIron stackable products.
It shows the standalone switch VLAN by Subnet active port membership.
snVLanByIpSubnetChassisStaticMask
fdry.1.1.3.2.3.1.10
Syntax: Octet string
Read-write
Applies to all Foundry devices, except ServerIron products, running Release 07.1.00. This object has 32 octets.
It is replaced by the object “snVLanByIpSubnetStaticPortList” in later releases.
It shows the chassis VLAN by Subnet port membership applied in static mode.
snVLanByIpSubnetChassisExcludeMask
fdry.1.1.3.2.3.1.11
Syntax: Octet string
Read-write
Applies to all Foundry devices, except ServerIron products, running Release 07.1.00. This object has 32 octets.
It is replaced by the object “snVLanByIpSubnetExcludePortList” in later releases.
It shows the chassis VLAN by Subnet port membership applied in exclusive mode.
snVLanByIpSubnetChassisDynamicMask
fdry.1.1.3.2.3.1.12
Syntax: Octet string
Read-write
Applies to all Foundry devices, except ServerIron products, running Release 07.1.00. This object has 32 octets.
It is replaced by the object “snVLanByIpSubnetDynamicPortList” in later releases.
It shows the chassis VLAN by Subnet port membership applied in exclusive mode.
snVLanByIpSubnetVLanName
fdry.1.1.3.2.3.1.13
Syntax: Display string
Read-write
Shows the name of the community string that is allowed to access the VLAN.
Valid values: Up to 32 characters.
snVLanByIpSubnetStaticPortList
fdry.1.1.3.2.3.1.14
Syntax: Octet string
Read-write
Applies to all Foundry devices, except for ServerIron products.
This object is an index of ports that are the configured to be members of the VLAN by IP Subnet. Each port index is a 16-bit integer in big endian order. The first 8 bits are the slot number; the other 8 bits are the port number.
snVLanByIpSubnetExcludePortList
fdry.1.1.3.2.3.1.15
Syntax: Octet string
Read-write
Applies to all Foundry devices, except for ServerIron products.
This object is an index of ports that are excluded from port membership of the VLAN by IP Subnet. Each port index is a 16-bit integer in big endian order. The first 8 bits are the slot number; the other 8 bits are the port number.
snVLanByIpSubnetDynamicPortList
fdry.1.1.3.2.3.1.16
Syntax: Octet string
Read only Applies to all Foundry devices, except for ServerIron products.
This object is an index of ports that can dynamically join the port membership of the VLAN By IP Subnet. Each port index is a 16-bit integer in big endian order. The first 8 bits are the slot number; the other 8 bits are the port number.
Name, OID, and Syntax Access Description
15-16 © 2008 Foundry Networks, Inc. April 2008
VLANs
VLAN by IPX Network Configuration TableThe following table applies to protocol VLANs that use the IPX routing protocol. Unless otherwise stated in the object description, all objects in this table apply to all Foundry devices.
The remaining objects for IP are presented in the chapter “IPX” on page 21-1.
Name, OID, and Syntax Access Description
snVLanByIpxNetTable
fdry.1.1.3.2.4
None An entry of the VLAN By IPX Network Number Table.
snVLanByIpxNetEntry
fdry.1.1.3.2.4.1
None An entry in the VLAN by IPX Network Configuration table.
snVLanByIpxNetVLanId
fdry.1.1.3.2.4.1.1
Syntax: Integer
Read only The VLAN ID index to both of the VLAN By Port Info Table and this table.
Valid values: 1 – 4095.
snVLanByIpxNetNetworkNum
fdry.1.1.3.2.4.1.2
Syntax: Octet string
Read only Shows the IPX Network Number. This object has four octets.
snVLanByIpxNetFrameType
fdry.1.1.3.2.4.1.3
Syntax: Integer
Read only Shows the frame type for the Layer 3 VLAN:
• notApplicable(0) – If none of the options below is selected
• ipxEthernet8022(1)
• ipxEthernet8023(2)
• ipxEthernetII(3)
• ipxEthernetSnap(4)
Each IPX Network Number must be assigned with one unique Frame type; otherwise an SNMP-SET error will be returned.
snVLanByIpxNetDynamic
fdry.1.1.3.2.4.1.4
Syntax: Integer
Read-write
Applies only to switches. Indicates whether or not dynamic port inclusion is enabled.
• disabled(0)
• enabled(1)
snVLanByIpxNetStaticMask
fdry.1.1.3.2.4.1.5
Syntax: PortMask
Read-write
Applies only to stackable ServerIron products. It shows the VLAN by IPX network port membership applied in static mode.
snVLanByIpxNetExcludeMask
fdry.1.1.3.2.4.1.6
Syntax: PortMask
Read-write
Applies only to stackable ServerIron products. It shows the VLAN by IPX network port membership applied in exclusive mode.
snVLanByIpxNetRouterIntf
fdry.1.1.3.2.4.1.7
Syntax: Integer
Read-write
Applies only to routers and is optional. It shows the virtual interface of a router to the VLAN.
Valid values: 0 – 60; however, if this object is not configured if an SNMP-Get is equal to zero.
April 2008 © 2008 Foundry Networks, Inc. 15-17
Foundry Management Information Base Reference
snVLanByIpxNetRowStatus
fdry.1.1.3.2.4.1.8
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snVLanByIpxNetDynamicMask
fdry.1.1.3.2.4.1.9
Syntax: PortMask
Read only Applies only to stackable ServerIron products. It shows the VLAN By IPX network active port membership.
snVLanByIpxNetChassisStaticMask
fdry.1.1.3.2.4.1.10
Syntax: Octet string
Read-write
Applies to all Foundry devices running Release 07.1.00 and earlier, except for ServerIron products. This object has 32 octets.
It is replaced by snVLanByIpxNetStaticPortList in later releases.
It shows the chassis VLAN by IPX network port membership applied in static mode.
snVLanByIpxNetChassisExcludeMask
fdry.1.1.3.2.4.1.11
Syntax: Octet string
Read-write
Applies to all Foundry devices running Release 07.1.00 and earlier, except for ServerIron products. This object has 32 octets.
It is replaced by snVLanByIpxNetExcludePortList in later releases.
It shows the chassis VLAN by IPX network port membership applied in exclusive mode.
snVLanByIpxNetChassisDynamicMask
fdry.1.1.3.2.4.1.12
Syntax: Octet string
Read only Applies to all Foundry devices running Release 07.1.00 and earlier, except for ServerIron products. This object has 32 octets.
It is replaced by snVLanByIpxNetDynamicPortList in later releases.
It shows the chassis VLAN by IPX network port membership.
snVLanByIpxNetVLanName
fdry.1.1.3.2.4.1.13
Syntax: Display string
Read-write
Applies to all Foundry devices except for ServerIron products.
It shows the name of the community string that can access this VLAN.
Valid values: Up to 32 characters.
Name, OID, and Syntax Access Description
15-18 © 2008 Foundry Networks, Inc. April 2008
VLANs
VLAN by AppleTalk Cable Configuration TableThe following table applies to protocol VLANs that use AppleTalk routing protocol. Objects in this table apply to all Foundry devices except ServerIron products.
The remaining objects for IP are presented in the chapter “AppleTalk” on page 22-1.
snVLanByIpxNetStaticPortList
fdry.1.1.3.2.4.1.14
Syntax: Octet string
Read-write
Applies to all Foundry devices, except ServerIron products.
Lists the membership of a VLAN By IPX network. Each port index is a 16-bit integer in big endian order. The first 8 bits are the slot number, the other 8 bits are the port number.
snVLanByIpxNetExcludePortList
fdry.1.1.3.2.4.1.15
Syntax: Octet string
Read-write
Applies to all Foundry devices, except ServerIron products.
It lists the ports that are excluded from the VLAN by IPX network membership. Each port index is a 16-bit integer in big endian order. The first 8 bits are the slot number, the other 8 bits are the port number.
snVLanByIpxNetDynamicPortList
fdry.1.1.3.2.4.1.16
Syntax: Octet string
Read only Applies to all Foundry devices, except ServerIron products.
It lists the ports that can dynamically join the membership of the VLAN by IPX network. Each port index is a 16-bit integer in big endian order. The first 8 bits are the slot number, the other 8 bits are the port number.
Name, OID, and Syntax Access Description
snVLanByATCableTable
fdry.1.1.3.2.5
None A table of VLAN by AppleTalk Network Number.
snVLanByATCableEntry
fdry.1.1.3.2.5.1
None An entry of the AppleTalk Cable VLAN table.
snVLanByATCableVLanId
fdry.1.1.3.2.5.1.1
Syntax: Integer
Read only The VLAN ID of a port VLAN to which the AppleTalk Cable VLAN attaches.
Valid values: 1 – 4095.
snVLanByATCableIndex
fdry.1.1.3.2.5.1.2
Syntax: Integer
Read only AppleTalk Cable VLAN index number.
snVLanByATCableRouterIntf
fdry.1.1.3.2.5.1.3
Syntax: Integer
Read-write
Shows the virtual interface of a router to the AppleTalk Cable VLAN
Valid values: 0 – 60; however, an SNMP-Get will equal zero if this object is not configured. Only router products accept the SNMP-SET operation.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 15-19
Foundry Management Information Base Reference
snVLanByATCableRowStatus
fdry.1.1.3.2.5.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snVLanByATCableChassisStaticMask
fdry.1.1.3.2.5.1.5
Syntax: Octet string
Read-write
Applies only to Foundry devices running Release 07.1.00 and earlier. It is replaced in earlier releases by the object snVLanByATCableStaticPortList.
Shows a list of ports that are statically configured to become port members of a VLAN.
It has 32 octets.
snVLanByATCableVLanName
fdry.1.1.3.2.5.1.6
Syntax: Display string
Read-write
Shows the community string that can access this VLAN.
Valid values: Up to 32 characters.
snVLanByATCableStaticPortList
fdry.1.1.3.2.5.1.7
Syntax: Octet string
Read-write
Shows a list of port indices that configured to be membership of the AppleTalk Cable VLAN. Each port index is a 16-bit integer in big endian order. The first 8 bits are the slot number, the other 8 bits are the port number.
Name, OID, and Syntax Access Description
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VLANs
Support for the NetIron XMR, NetIron MLX and BigIron RXBeginning with the NetIron XMR and NetIron MLX release 03.9.00 and BigIron RX 02.6.00 release, the following MIB objects for VLANs are supported on the NetIron XMR, NetIron MLX, and BigIron RX.
VLAN by Port Membership TableThe following table is the Port VLAN (Layer 2 VLAN) port membership table.
Table 15.1: Vlan By Port Member Table
Name, OID, and Syntax Access Description
snVlanByPortMemberTable
fdry.1.1.3.2.6
None This table is used to create or delete a port VLAN (Layer 2 VLAN) entry.
snVLanByPortMemberEntry
fdry.1.1.3.2.6.1
None An entry in the Port VLAN Port Membership table.
snVLanByPortMemberVLanId
fdry.1.1.3.2.6.1.1
Syntax: Integer
Read only The VLAN identifier (VLAN ID).
Valid values: 1 – 4095 VLAN IDs.
snVLanByPortMemberPortId
fdry.1.1.3.2.6.1.2
Syntax: Integer
Read only The ifIndex which is a member of the port VLAN.
snVLanByPortMemberRowStatus
fdry.1.1.3.2.6.1.3
Syntax: Integer
Read-write Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• other(1) – Some other case
• valid(2) – Row exists and is valid
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Port VLAN Configuration Table
Table 15.2: Port VLAN Configuration Table
Name, OID, and Syntax Access Description
snVLanByPortCfgTable
fdry.1.1.3.2.7
None The Port VLAN (Layer 2 VLAN) configuration table.
snVLanByPortCfgEntry
fdry.1.1.3.2.7.1
None An entry of the port VLAN configuration table.
snVLanByPortCfgVLanId
fdry.1.1.3.2.7.1.1
Syntax: Integer
Read-write The VLAN ID index to this table. Each VLAN Identifier can be a member of multiple ports.
Valid values: 1 – 4095.
snVLanByPortCfgQos
fdry.1.1.3.2.7.1.2
Syntax: Integer
Read-write Shows the quality of service settings for the devices.
For Stackable devices, the values can be one of the following:
• low(0) – low priority
• high(1) – high priority
For Chassis devices, the value can be one of the following:
• level0(0)
• level1(1)
• level2(2)
• level3(3)
• level4(4)
• level5(5)
• level6(6)
• level7(7)
snVLanByPortCfgStpMode
fdry.1.1.3.2.7.1.3
Syntax: Integer
Read-write Indicates whether or not Spanning Tree Protocol (STP) is enabled:
• disabled(0)
• enabled(1)
snVLanByPortCfgStpPriority
fdry.1.1.3.2.7.1.4
Syntax: Integer
Read-write Shows the value of the dot1dStpPriority, which is the first two octets of the STP or RSTP bridge ID. The STP and RSTP bridge IDs are eight octets long. This object contains the writable portion of the bridge ID.
The last six octets are contained in the dot1dBaseBridgeAddress of the object “snVLanByPortBaseBridgeAddress.”
Valid values: 1 – 65535.
15-22 © 2008 Foundry Networks, Inc. April 2008
VLANs
snVLanByPortCfgStpGroupMaxAge
fdry.1.1.3.2.7.1.5
Syntax: Integer
Read-write Shows the value of dot1dStpBridgeMaxAge, which is the last six octets or the STP or RSTP bridge ID. All bridges use this object for MaxAge when this bridge is acting as the root.
NOTE: 802.1D-1990 specifies that the range for this parameter is related to the value of dot1dStpBridgeHelloTime in the object “snVLanByPortStpGroupHelloTime” .
The granularity of this timer is specified by 802.1D-1990 to be one second. An agent may return a badValue error if a set is attempted to a value which is not a whole number of seconds.
(Refer to RFC 1493 Bridge MIB.)Valid values: 6 – 40.
snVLanByPortCfgStpGroupHello Time
fdry.1.1.3.2.7.1.6
Syntax: Integer
Read-write Shows the value of the dot1dStpBridgeHelloTime, which is the value used by all bridges when this bridge is acting as the root.
The granularity of this timer is specified by 802.1D-1990 to be one second. An agent may return a badValue error if a set is attempted to a value which is not a whole number of seconds.
(Refer to RFC1493 Bridge MIB.)
Valid values: 1 – 10
snVLanByPortCfgStpGroupForwardDelay
fdry.1.1.3.2.7.1.7
Syntax: Integer
Read-write Shows the value of dot1dStpBridgeForwardDelay, which is the value used by all bridges for ForwardDelay when this bridge is acting as the root.
NOTE: 802.1D-1990 specifies that the range for this parameter is related to the value of dot1dStpBridgeMaxAge, which is in the object “snVLanByPortStpGroupMaxAge” .
The granularity of this timer is specified by 802.1D-1990 to be one second. An agent may return a badValue error if a set is attempted to a value which is not a whole number of seconds.
(Refer to RFC1493 Bridge MIB).
Valid values: 2 – 30.
snVLanByPortCfgBaseNumPorts
fdry.1.1.3.2.7.1.8
Syntax: Integer
Read-only The number of ports controlled by this bridging entity.
Name, OID, and Syntax Access Description
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snVLanByPortCfgBaseType
fdry.1.1.3.2.7.1.9
Syntax: Integer
Read-only Indicates what type of bridging this bridge can perform. If a bridge is actually performing a certain type of bridging this will be indicated by entries in the port table for the given type.
• unknown(1)
• transparent-only(2)
• sourceroute-only(3)
• srt(4)
snVLanByPortCfgStpProtocolSpecification
fdry.1.1.3.2.7.1.10
Syntax: Integer
Read-only Shows what version of STP is being run:
• unknown(1)
• decLb100(2) – Indicates the DEC LANbridge 100 Spanning Tree protocol
• ieee8021d(3) – Return "ieee8021d(3)". If future versions of the IEEE Spanning Tree Protocol are released that are incompatible with the current version, a new value will be defined.
snVLanByPortCfgStpMaxAge
fdry.1.1.3.2.7.1.11
Syntax: Integer
Read-only Shows the value of dot1dStpMaxAge, which is the maximum age that the STP information can exist before it is discarded. The STP information is learned from the network. The value of this object is in hundredths of a second, and is the actual value that this bridge is currently using.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortCfgStpHelloTime
fdry.1.1.3.2.7.1.12
Syntax: Timeout
Read-only Shows the value of dot1dStpHelloTime, which is the interval between the transmission of Configuration bridge PDUs by this node. This value applies to any port when it is the root of the spanning tree or is trying to become the root. This is the actual value that this bridge is currently using.
This value is in hundredths of a second.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortCfgStpHoldTime
fdry.1.1.3.2.7.1.13
Syntax: Integer
Read-only Shows the value of dot1dStpHoldTime, which is the interval when no more than two Configuration bridge PDUs shall be transmitted by this node. The interval is in units of hundredths of a second.
(Refer to RFC1493 Bridge MIB.)
Name, OID, and Syntax Access Description
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VLANs
snVLanByPortCfgStpForwardDelay
fdry.1.1.3.2.7.1.14
Syntax: Timeout
Read-only Shows the value of dot1dStpForwardDelay, which controls how fast a port changes its spanning state when moving towards the forwarding state. The value determines how long the port stays in each of the listening and learning states, which precede the forwarding state. This value is also used, when a topology change has been detected and is underway, to age all dynamic entries in the forwarding database.
NOTE: This value is the one that this bridge is currently using in contrast to dot1dStpBridgeForwardDelay, which is the value that this bridge and all others would start using should this bridge become the root.
This value is measured in hundredths of a second.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortCfgStpTimeSinceTopologyChange
fdry.1.1.3.2.7.1.15
Syntax: Time ticks
Read-only Shows the time since the last topology change was detected by the bridge entity. This time is in hundredths of a second.
snVLanByPortCfgStpTopChanges
fdry.1.1.3.2.7.1.16
Syntax: Counter
Read-only Shows the total number of topology changes detected by this bridge since the management entity was last reset or initialized.
snVLanByPortCfgStpRootCost
fdry.1.1.3.2.7.1.17
Syntax: Integer
Read-only Shows the value of dot1dStpRootCost, which is the cost of the path to the root as seen from this bridge.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortCfgStpRootPort
fdry.1.1.3.2.7.1.18
Syntax: Integer
Read-only Shows the value of dot1dStpRootPort, which is the port number of the port which offers the lowest cost path from this bridge to the root bridge.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortCfgStpDesignatedRoot
fdry.1.1.3.2.7.1.19
Syntax: BridgeId
Read-only Shows the dot1dStpDesignatedRoot, which is the bridge identifier of the root of the spanning tree as determined by the Spanning Tree Protocol as executed by this node. This value is used as the root identifier parameter in all configuration bridge PDUs originated by this node.
(Refer to RFC1493 Bridge MIB.)
snVLanByPortCfgBaseBridgeAddress
fdry.1.1.3.2.7.1.20
Syntax: MAC address
Read-only Shows the MAC address used by this bridge when it must be referred to in a unique fashion. It is recommended that this be the numerically smallest MAC address of all ports that belong to this bridge, however, it is only required to be unique. When concatenated with dot1dStpPriority a unique bridge identifier is formed which is used in the Spanning Tree Protocol.
snVLanByPortCfgVLanName
fdry.1.1.3.2.7.1.21
Syntax: Display string
Read-write Shows the name of the VLAN community string.
Valid values: Up to 32 characters.
Name, OID, and Syntax Access Description
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snVLanByPortCfgRouterIntf
fdry.1.1.3.2.7.1.22
Syntax: Integer
Read-write This object is optional. It identifies the virtual interface for the router to the VLAN, and applies only to the router. If an SNMP-Get value is zero, that means this object was not configured.
snVLanByPortCfgRowStatus
fdry.1.1.3.2.7.1.23
Syntax: Integer
Read-write Determines whether or not the VLAN will be deleted:
• other(1)
• valid(2)
• delete(3)
snVLanByPortCfgStpVersion
fdry.1.1.3.2.7.1.24
SyntSyntax: Integerax: Integer
Read-write Shows the version of Spanning Tree Protocol the bridge is currently running.
• stpCompatible(0) – STP (IEEE 802.1D)
• rstp(2) – RSTP (IEEE 802.1w)
snVLanByPortCfgInOctets
fdry.1.1.3.2.7.1.25
Syntax: Counter64
Read-only The number of bytes received on this VLAN. This can be used as the per VE couter, if there is one-to-one map for VLAN-VE.
Name, OID, and Syntax Access Description
15-26 © 2008 Foundry Networks, Inc. April 2008
Chapter 16Router Redundancy Protocols
The objects in this chapter are for the following protocols:
• Foundry Standby Routing Protocol (FSRP) allows alternate paths to be provided to a host using a virtual router. FSRP is a proprietary router redundancy protocol that was available in Foundry devices before the other router redundancy protocols. The protocol has been retired in B2R flash images, starting with IronWare release 07.6.01. (Refer to “FSRP Objects” on page 16-2.)
• Virtual Router Redundancy Protocol (VRRP) is a standard router redundancy protocol described in RFC 2338. VRRP is a protocol that provides redundancy to routers within a LAN. VRRP allows you to provide alternate router paths for a host without changing the IP address or MAC address by which the host knows its gateway. The VRRP feature is available in Foundry Layer 3 Switches. (Refer to the sections “VRRP Global Variables” on page 16-5, “VRRP Interface Tables” on page 16-5, and “VRRP Virtual Router Parameters Tables” on page 16-7.)
• VRRP Extended (VRRPE) is an enhanced version of VRRP that overcomes limitations in the standard protocol. The VRRPE feature is also available in Foundry Layer 3 Switches. (Refer to the sections “VRRP Global Variables” on page 16-5, “VRRP Interface Tables” on page 16-5, and “VRRP Virtual Router Parameters Tables” on page 16-7.)
• Virtual Switch Redundancy Protocol (VSRP), which is a Foundry proprietary protocol that provides redundancy and sub-second failover in Layer 2 and Layer 3 mesh topologies. Based on the Foundry Virtual Router Redundancy Protocol Extended (VRRPE), VSRP provides one or more backups for a Layer 2 Switch or Layer 3 Switch. If the active Layer 2 Switch or Layer 3 Switch becomes unavailable, one of the backups takes over as the active device and continues forwarding traffic for the network. (Refer to “VSRP” on page 16-18.)
NOTE: VRRP, VRRPE, and VSRP are separate protocols. You cannot use them together.
This chapter presents the objects for the protocols. Traps for FSRP and VRRP are discussed in the section “Traps and Objects to Enable Traps” on page 30-1.
Refer to the Foundry Enterprise Configuration and Management Guide for details on the features discussed in this chapter.
Beginning with the NetIron XMR and NetIron MLX release 03.9.00 and BigIron RX 02.6.00 release, see “Support for the NetIron XMR, NetIron MLX and BigIron RX” on page 16-26
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Foundry Management Information Base Reference
FSRP ObjectsThe Foundry Standby Routing Protocol (FSRP) allows alternate paths to be provided to a host. To provide path redundancy between given hosts, a virtual router is created. To create a virtual router, unique IP addresses are assigned to ports on existing routers in the network—routers that could provide a path between the given hosts.
For more information on FSRP, refer to the Foundry Enterprise Configuration and Management Guide. This chapter presents the objects for FSRP. They are available in Foundry devices that support. You must determine if you device supports FSRP before using the MIB objects for FSRP traps.
NOTE: Foundry Standby Routing Protocol (FSRP) MIBs are not supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
For objects referring to FSRP traps, refer to the chapter “Traps and Objects to Enable Traps” on page 30-1.
This section presents the following objects:
• “FSRP Global Variables” on page 16-2
• “FSRP Interface Table” on page 16-2
FSRP Global VariablesThe following object applies to all FSRP interfaces.
FSRP Interface TableThe FSRP Interface Table describes the configuration of FSRP interfaces.
Name, OID, and Syntax Access Description
snFsrpGroupOperMode
fdry.1.2.7.1.1
Syntax: Integer
Read-write
Indicates if FSRP is enabled:
• disabled(0)
• enabled(1)
NOTE: Do not enable both FSRP and VRRP. Foundry Networks recommends that you use only one of these router redundancy protocols on a Layer 3 Switch.
Default: disabled(0)
Name, OID, and Syntax Access Description
snFsrpIfTable
fdry.1.2.7.2.1
None The FSRP Interface Table.
snFsrpIfEntry
fdry.1.2.7.2.1.1
None An entry in the FSRP Interface Table.
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Router Redundancy Protocols
snFsrpIfPort
fdry.1.2.7.2.1.1.1
Syntax: Integer
Read only Identifies the physical router port number of this FSRP interface.
snFsrpIfIpAddress
fdry.1.2.7.2.1.1.2
Syntax: IpAddress
Read only Identifies the IP address of the physical router port of this interface.
snFsrpIfVirRtrIpAddr
fdry.1.2.7.2.1.1.3
Syntax: IpAddress
Read-write
Identifies the IP address of the virtual router for the interface. The Virtual Router IP address needs to be configured on the interface before the Redundant Router Function can operate on the interface. This address has to be same on all the routers that are going to participate in the Redundant Router Function on a given subnet.
snFsrpIfOtherRtrIpAddr
fdry.1.2.7.2.1.1.4
Syntax: IpAddress
Read-write
Identifies the IP address of the other router on this IP subnet. The other router is the router that operates FSRP and to which the keep alive message needs to be sent by this router. This object must be configured in order for FSRP to work correctly
snFsrpIfPreferLevel
fdry.1.2.7.2.1.1.5
Syntax: Integer
Read-write
Decides which router should become the active router for the interface. The active router is the one with the higher priority. A higher number indicates a higher priority.
Valid values: 1 – 255
Default: 100
snFsrpIfTrackPortMask
Syntax: PortMask
Read-write
This object is not supported in Foundry devices.
snFsrpIfRowStatus
fdry.1.2.7.2.1.1.7
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
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snFsrpIfState
fdry.1.2.7.2.1.1.8
Syntax: Integer
Read only Specifies the state of the FSRP Router interface:
• init(0) – initialization state
• negotiating(1) – negotiating state
• standby(2) – standby state
• active(3) – active state
snFsrpIfKeepAliveTime
fdry.1.2.7.2.1.1.9
Syntax: Integer
Read-write
Defines the heartbeat of the interface.
Valid values: 1 – 120 seconds.
Default: 3 seconds
snFsrpIfRouterDeadTime
fdry.1.2.7.2.1.1.10
Syntax: Integer
Read-write
Defines the hold time of the FSRP router.
Valid values: 3 – 255 seconds
Default: nine seconds
snFsrpIfChassisTrackPortMask
fdry.1.2.7.2.1.1.11
Syntax: Octet string
Read-write
Applies only to chassis products running Release 07.1.00 software.
This object is replaced by the “snFsrpIfTrackPortList” object in later releases.
For chassis products running Release 07.1.00, this object shows the chassis router FSRP Track port membership.
It specifies the identity of the physical port whose state is to be monitored. Each bit is a port of the system.
Valid values: Up to 32 octets
Default: 0
If this object is configured, then the preference level of this interface will be adjusted dynamically, depending on the state of the track port. The preference level is configured in the “snFsrpIfPreferLevel” object. The interface’s preference level is reduced by the value of the preference level parameter when the track port states first changes from UP to DOWN. When the track port comes up, the interface’s preference level is increased by the amount specified by the preference level.
snFsrpIfTrackPortList
fdry.1.2.7.2.1.1.12
Syntax: Octet string
Read-write
Shows the router FSRP physical track port membership.
It specifies the identity of the physical port whose state is to be monitored. Each port index is a 16-bit integer in big endian order. 8-bit is the slot number, the other 8-bit is the port number.
Default: 0 length octet string
If this object is configured, then the preference level of this interface will be adjusted dynamically, depending on the state of the track port. The preference level is configured in the “snFsrpIfPreferLevel” object. The interface’s preference level is reduced by the value of the preference level parameter when the track port states first changes from UP to DOWN. When the track port comes up, the interface’s preference level is increased by the amount specified by the preference level.
Name, OID, and Syntax Access Description
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Router Redundancy Protocols
VRRP Global VariablesThe following table contains the global objects that applies to VRRP, VRRPE, and VSRP protocol.
VRRP Interface TablesThis section presents:
• “VRRP Interface Table” on page 16-5
• “VRRP and VRRPE Interface Table 2” on page 16-6
VRRP Interface TableThe objects in this section apply to VRRP, VRRPE, and VSRP, depending on which protocol is enabled in the device. This table has been replaced by the “snVrrpIf2Table” table, which is presented in the “VRRP and VRRPE Interface Table 2” on page 16-6
This table has been deprecated.
Name, OID, and Syntax Access Description
snVrrpGroupOperMode
fdry.1.2.12.1.1
Syntax: Integer
Read-write
Indicates if VRRP is enabled for this system:
• disabled(0) – Disable VRRP
• enabled(1) – Activate VRRP
Default: disabled(0)
Name, OID, and Syntax Access Description
snVrrpIfTable
fdry.1.2.12.2.1
None The VRRP Interface Table.
snVrrpIfEntry
fdry.1.2.12.2.1.1
None An entry in the VRRP Interface Table.
snVrrpIfPort
fdry.1.2.12.2.1.1.1
snVrrpIfPort
Read only Shows the IP port of this VRRP interface.
snVrrpIfAuthType
fdry.1.2.12.2.1.1.2
snVrrpIfPort
Read-write
Indicates the authentication type of this interface.
• noAuth(0)
• simpleTextPasswd(1)
• ipAuthHeader(2)
snVrrpIfAuthPassword
fdry.1.2.12.2.1.1.3
Syntax: Octet string
Read-write
Shows the simple text password for this interface. You can use a simple text password if the object “snVrrpIfAuthType” object is set to simpleTextPasswd(1).
April 2008 © 2008 Foundry Networks, Inc. 16-5
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VRRP and VRRPE Interface Table 2The following table replaces the “snVrrpIfTable” (presented in the section “VRRP Interface Table” on page 16-5), which uses the slot/port number to index an entry. This new table uses the ifindex to present the configuration and statistics of VRRP and VRRPE interfaces. Each entry in the table describes one VRRP or VRRPE interface.
snVrrpIfRxHeaderErrCnts
fdry.1.2.12.2.1.1.4
Syntax: Counter
Read only Shows the number of VRRP or VRRPE packets received by the interface that had a header error.
snVrrpIfRxAuthTypeErrCnts
fdry.1.2.12.2.1.1.5
Syntax: Counter
Read only Shows the number of VRRP or VRRPE packets received by the interface that had an authentication error.
snVrrpIfRxAuthPwdMismatchErrCnts
fdry.1.2.12.2.1.1.6
Syntax: Counter
Read only Shows the number of VRRP or VRRPE packets received by the interface that had a password value that does not match the password used by the interface for authentication.
snVrrpIfRxVridErrCnts
fdry.1.2.12.2.1.1.7
Syntax: Counter
Read only Shows the number of VRRP or VRRPE packets received by the interface that contained a VRID that is not configured on this interface.
Name, OID, and Syntax Access Description
snVrrpIf2Table
fdry.1.2.12.4.1
None The VRRP and VRRPE table 2 for interfaces, using the ifindex
snVrrpIf2Entry
fdry.1.2.12.4.1.1
None An entry in the table
snVrrpIf2AuthType
fdry.1.2.12.4.1.1.1
Syntax: Integer
Read-write The authentication type of the interface:
• noAuth(0)
• simpleTextPasswd(1)
• ipAuthHeader(2)
snVrrpIf2AuthPassword
fdry.1.2.12.4.1.1.2
Syntax: Octet string
Read-write Password for the interface if the snVrrpIf2AuthType type is set to simpleTextPasswd(1).
snVrrpIf2RxHeaderErrCnts
fdry.1.2.12.4.1.1.3
Syntax: Counter
Read only The number of packets received by the interface that had a header error.
Name, OID, and Syntax Access Description
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Router Redundancy Protocols
VRRP Virtual Router Parameters TablesThere are two types of VRRP Virtual Router Parameters Table:
• “VRRP Virtual Router Table” on page 16-7
• “VRRP and VRRPE Parameter Table 2” on page 16-13
VRRP Virtual Router TableThis table has been replaced by the “snVrrpVirRtr2Table” in IronWare release 07.6.01. The new table is presented in the section “VRRP and VRRPE Parameter Table 2” on page 16-13.
snVrrpIf2RxAuthTypeErrCnts
fdry.1.2.12.4.1.1.4
Syntax: Counter
Read only The number of packets received by the interface that had an authentication error.
snVrrpIf2RxAuthPwdMismatchErrCnts
fdry.1.2.12.4.1.1.5
Syntax: Counter
Read only The number of packets received by the interface that had a password value that does not match the password used by the interface for authentication.
snVrrpIf2RxVridErrCnts
fdry.1.2.12.4.1.1.6
Syntax: Counter
Read only The number of packets received by the interface that contained a VRID that is not configured on this interface.
Name, OID, and Syntax Access Description
snVrrpVirRtrTable
fdry.1.2.12.3.1
None The VRRP Virtual Router Table
snVrrpVirRtrEntry
fdry.1.2.12.3.1.1
None An entry in the VRRP Virtual Router Table.
snVrrpVirRtrPort
fdry.1.2.12.3.1.1.1
Syntax: Integer
Read only Shows the port number of this VRRP interface.
snVrrpVirRtrId
fdry.1.2.12.3.1.1.2
Syntax: Integer
Read only Shows the VRID that has been configured on this interface. If multiple VRIDs are configured, there is an entry for each VRID.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 16-7
Foundry Management Information Base Reference
snVrrpVirRtrOwnership
fdry.1.2.12.3.1.1.3
Syntax: Integer
Read-write
Indicates the owner of the router interface. The owner or master router owns the IP addresses associated with the VRID:
• incomplete(0) – no IP address has been assigned to this VRRP router interface.
• owner(1) – The owner or the master router is the owner of the VRRP router interface.
• backup(2) – The backup router is the owner of the interface.
snVrrpVirRtrCfgPriority
fdry.1.2.12.3.1.1.4
Syntax: Integer
Read-write
Applies only if the object “snVrrpVirRtrOwnership” is set to backup(2).
It indicates the backup router’s preferability to becoming the active router for the interface. The higher the number, the higher the priority. If two or more devices are tied with the highest priority, the Backup interface with the highest IP address becomes the active router for the VRID.
Valid values: 3 – 254
Default: 100
snVrrpVirRtrTrackPriority
fdry.1.2.12.3.1.1.5
Syntax: Integer
Read-write
Applies to interfaces that are configured with track ports.
It indicates the priority of the track ports. A higher the number indicates a higher priority. Track port priority is always lower than the “snVrrpVirRtrCfgPriority” priority.
This object is adjusted dynamically with the “snVrrpVirRtrCurrPriority” object when the Track Port state first changes from up to down.
Valid values: 1 – 254
snVrrpVirRtrCurrPriority
fdry.1.2.12.3.1.1.6
Syntax: Integer
Read only The current VRRP priority of this Layer 3 Switch for the VRID. The current priority can differ from the configured priority for the following reasons:
• The VRID is still in the initialization stage and has not yet become a Master or Backup. In this case, the current priority is 0.
• The VRID is configured with track ports and the link on a tracked interface has gone down.
A higher the number indicates a higher priority.
This object is adjusted dynamically with the “snVrrpVirRtrTrackPriority” object.
Valid values: 1 – 254
snVrrpVirRtrHelloInt
fdry.1.2.12.3.1.1.7
Syntax: Integer
Read-write
Shows the number of seconds between hello messages that are sent between the master and the backup.
Valid values: 1 – 84 seconds
Default: 1 second
Name, OID, and Syntax Access Description
16-8 © 2008 Foundry Networks, Inc. April 2008
Router Redundancy Protocols
snVrrpVirRtrDeadInt
fdry.1.2.12.3.1.1.8
Syntax: Integer
Read-write
Applies only to VRRP backups.
It shows the configured value for the dead interval. The dead interval is the number of seconds that a backup router waits for a Hello message from the VRID master before determining that the Master is no longer active.
If the Master does not send a Hello message before the dead interval expires, the backups negotiate (compare priorities) to select a new Master for the VRID.
Valid values: 0 – 84 seconds. A value of 0 means that this object has not been configured.
Default: 0 seconds
snVrrpVirRtrPreemptMode
fdry.1.2.12.3.1.1.9
Syntax: Integer
Read-write
Indicates if the backup preempt mode is enabled. The Backup preempt mode prevents a backup router with a higher VRRP priority from taking control of the VRID from another backup router that has a lower priority, but has already assumed control of the VRID:
• disabled(0) – Prohibit preemption
• enabled(1) – Allow preemption
Default: enabled(1)
snVrrpVirRtrState
fdry.1.2.12.3.1.1.10
Syntax: Integer
Read only Specifies the state of the VRRP Router’s interface:
• init(0) – Initialization state.
• master(1) – Master state.
• backup(2) – Backup state.
snVrrpVirRtrActivate
fdry.1.2.12.3.1.1.11
Syntax: Integer
Read-write
Indicates if the VRRP Router feature is enabled.
• disabled(0) – The VRRP Router is deactivated
• enabled(1) – The VRRP Router has been activated
snVrrpVirRtrIpAddrMask
fdry.1.2.12.3.1.1.12
Syntax: Octet string
Read-write
The number of IP addresses of this virtual router of this interface.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 16-9
Foundry Management Information Base Reference
snVrrpVirRtrTrackPortMask
fdry.1.2.12.3.1.1.13
Syntax: Octet string
Read-write
This object was obsoleted after release 07.1.00 and replaced by “snVrrpVirRtrTrackPortList” .
It specifies the identity of the physical port whose state is to be monitored. Each bit represents a port on a device.
Valid values: There can be up to 64 octets in this object:
• Chassis devices can have up to 32 octets.
• Stackable devices can have up to 4 octets.
Default: 0 octets
If this object is configured on an interface, then the Preference Level for the interface will be adjusted dynamically, depending on the state of the Track Port:
• When the Track Port states first changes from up to down, the interface’s Preference Level is reduced by the value of the Preference Level parameter.
• The next time the Track Port state changes from down to up, the interface’s Preference Level is increased by the amount specified by the Preference Level.
snVrrpVirRtrTrackVifMask
fdry.1.2.12.3.1.1.14
Syntax: Octet string
Read-write
This object was obsoleted after release 07.1.00 and replaced by “snVrrpVirRtrTrackVifPortList” .
It specifies the identity of the virtual interface whose state is to be monitored. Each bit represents a port on a device.
Valid values:
• Chassis devices can have up to 32 octets.
• Stackable devices can have up to 4 octets.
Default: 0 octets
If this object is configured on an interface, then the Preference Level for the interface will be adjusted dynamically, depending on the state of the Track Port:
• When the Track Port states first changes from up to down, the interface’s Preference Level is reduced by the value of the Preference Level parameter.
• The next time the Track Port state changes from down to up, the interface’s Preference Level is increased by the amount specified by the Preference Level.
Name, OID, and Syntax Access Description
16-10 © 2008 Foundry Networks, Inc. April 2008
Router Redundancy Protocols
snVrrpVirRtrRowStatus
fdry.1.2.12.3.1.1.15
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snVrrpVirRtrRxArpPktDropCnts
fdry.1.2.12.3.1.1.16
Syntax: Counter
Read only Shows the number of ARP packets addressed to the interface that were dropped.
snVrrpVirRtrRxIpPktDropCnts
fdry.1.2.12.3.1.1.17
Syntax: Counter
Read only Shows the number of IP packets addressed to the interface that were dropped.
snVrrpVirRtrRxPortMismatchCnts
fdry.1.2.12.3.1.1.18
Syntax: Counter
Read only Shows the number of packets received that did not match the configuration for the receiving interface.
snVrrpVirRtrRxNumOfIpMismatchCnts
fdry.1.2.12.3.1.1.19
Syntax: Counter
Read only Shows the number of packets received that did not match the configured IP addresses.
snVrrpVirRtrRxIpMismatchCnts
fdry.1.2.12.3.1.1.20
Syntax: Counter
Read only Shows the number of receive VRRP IP addresses that did not match the configured VRRP addresses.
snVrrpVirRtrRxHelloIntMismatchCnts
fdry.1.2.12.3.1.1.21
Syntax: Counter
Read only Shows the number of packets received that did not match the configured Hello interval.
snVrrpVirRtrRxPriorityZeroFromMasterCnts
fdry.1.2.12.3.1.1.22
Syntax: Counter
Read only Shows the counts of the virtual router interface with priority zero from the master.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 16-11
Foundry Management Information Base Reference
snVrrpVirRtrRxHigherPriorityCnts
fdry.1.2.12.3.1.1.23
Read only Shows the number of VRRP packets received by the interface that had a higher backup priority for the VRID than what this interface’s backup priority is.
snVrrpVirRtrTransToMasterStateCnts
fdry.1.2.12.3.1.1.24
Syntax: Counter
Read only Shows the number of times this interface has changed from the backup state to the master state for the VRID.
snVrrpVirRtrTransToBackupStateCnts
fdry.1.2.12.3.1.1.25
Syntax: Counter
Read only Shows the number of times this interface has changed from the master state to the backup state for the VRID.
snVrrpVirRtrCurrDeadInt
fdry.1.2.12.3.1.1.26
Syntax: Integer
Read only Shows the number of seconds a backup waits for a Hello message from the master before determining that the Master is no longer active. If the Master does not send a Hello message before the dead interval expires, the backups negotiate (compare priorities) to select a new master.
snVrrpVirRtrTrackPortList
fdry.1.2.12.3.1.1.27
Syntax: Octet string
Read-write
This object is available Foundry devices running IronWare release later than 07.1.00. It specifies the identity of the physical port whose state is to be monitored.
Each port index is a 16-bit integer in big endian order. The first 8-bit is the slot number; the next 8-bit is the port number. Default value is 0 length octet string.
If this object is configured on an interface, then the Preference Level for the interface will be adjusted dynamically, depending on the state of the Track Port:
• When the Track Port state first changes from up to down, the interface’s Preference Level is reduced by the value of the Preference Level parameter.
• The next time the Track Port state changes from down to up, the interface’s Preference Level is increased by the amount specified by the Preference Level.
Name, OID, and Syntax Access Description
16-12 © 2008 Foundry Networks, Inc. April 2008
Router Redundancy Protocols
VRRP and VRRPE Parameter Table 2In IronWare Release 07.6.01, the following table replaces the “snVrrpVirRtrTable” , which uses slot/port number to index entries. This new table uses the ifindex method to present the configuration and statistics for VRRP and VRRPE. Each entry in the table describes one VRRP or VRRPE router.
snVrrpVirRtrTrackVifPortList
fdry.1.2.12.3.1.1.28
Syntax: Octet string
Read-write
This object is available in Foundry devices running IronWare release later than 07.1.00. This object specifies the identity of the virtual interface whose state is to be monitored.
Each port index is a 16-bit integer in big endian order. The first 8-bit is the slot number; the next 8-bit is the port number. Default value is 0 length octet string.
If this object is configured on an interface, then the Preference Level for the interface will be adjusted dynamically, depending on the state of the Track Port:
• When the Track Port states first changes from up to down, the interface’s Preference Level is reduced by the value of the Preference Level parameter.
• The next time the Track Port state changes from down to up, the interface’s Preference Level is increased by the amount specified by the Preference Level.
Name, OID, and Syntax Access Description
snVrrpVirRtr2Table
fdry.1.2.12.5.1
None The VRRP Virtual Router Table 2.
snVrrpVirRtr2Entry
fdry.1.2.12.5.1.1
None An entry in the VRRP Virtual Router Table 2.
snVrrpVirRtr2Id
fdry.1.2.12.5.1.1.1
Syntax: Integer
Read only Shows one of the VRID configured on this interface. If multiple VRIDs are configured on the interface, there is an entry for each VRID.
snVrrpVirRtr2Ownership
fdry.1.2.12.5.1.1.2
Syntax: Integer
Read-write Indicates the owner of the VRRP router interface. The owner or master router owns the IP addresses associated with the VRID:
• incomplete(0) – No IP address has been assigned to this VRRP or VRRPE interface.
• owner(1) – The owner or the master router is the owner of the VRRP router interface. This applies only to VRRP.
• backup(2) – The backup router (VRRP or VRRPE) is the owner of the interface. This is the only value that can be assigned to a VRRPE router interface.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 16-13
Foundry Management Information Base Reference
snVrrpVirRtr2CfgPriority
fdry.1.2.12.5.1.1.3
Syntax: Integer
Read-write Indicates the preferability of a router for becoming the active router for the interface. A higher number indicates a higher priority. If two or more devices are tied with the highest priority, the Backup interface with the highest IP address becomes the active router for the VRID.
Valid values: 0 – 255, where:
• 0 – The master no longer participates in the VRRP and a backup router should transition to be the new master
• 255 – The router is the Owner
Default: 100.
snVrrpVirRtr2TrackPriority
fdry.1.2.12.5.1.1.4
Syntax: Integer
Read-write Applies to interfaces that are configured with track ports.
It indicates the priority of the track ports. The higher the number the higher the priority. Track port priority is always lower than the “snVrrpVirRtrCfgPriority” priority.
This object dynamically adjusts the value of the “snVrrpVirRtr2CfgPriority” object when the Track Port state first changes from Up to Down.
Valid values: 1 – 254.
snVrrpVirRtr2CurrPriority
fdry.1.2.12.5.1.1.5
Syntax: Integer
Read only The current VRRP or VRRPE priority of this Layer 3 Switch for the VRID. The current priority can differ from the configured priority for the following reasons:
• The VRID is still in the initialization stage and has not become a Master or Backup yet. In this case, the current priority is 0.
• The VRID is configured with track ports and the link on a tracked interface has gone down.
A higher number indicates a higher priority.
This object is adjusted dynamically when the tracked port first changes from Up to Down.
Valid values: 1 – 254.
snVrrpVirRtr2HelloInt
fdry.1.2.12.5.1.1.6
Syntax: Integer
Read-write Shows the number of seconds between hello advertisements from the master and the backup.
Valid values: 1 – 84.
Default: 1 second.
Name, OID, and Syntax Access Description
16-14 © 2008 Foundry Networks, Inc. April 2008
Router Redundancy Protocols
snVrrpVirRtr2DeadInt
fdry.1.2.12.5.1.1.7
Syntax: Integer
Read-write Applies only to VRRP or VRRPE backups.
It shows the configured value for the dead interval. The dead interval is the number of seconds that a backup router waits for a Hello message from the VRID master before determining that the Master is no longer active.
If the Master does not send a Hello message before the dead interval expires, the backups negotiate (compare priorities) to select a new Master for the VRID.
Valid values: 1 – 84.
Default: 0, which means that this object has not been configured.
snVrrpVirRtr2PreemptMode
fdry.1.2.12.5.1.1.8
Syntax: Integer
Read-write Indicates if the backup preempt mode is enabled:
• disabled(0) – prohibit preemption
• enabled(1) – allow preemption
Default: enabled(1).
The Backup preempt mode prevents a backup router with a higher VRRP priority from taking control of the VRID from another backup router that has a lower priority, but has already assumed control of the VRID.
snVrrpVirRtr2State
fdry.1.2.12.5.1.1.9
Syntax: Integer
Read only Specifies the VRRP or VRRPE router’s interface state:
• init(0) – Initialization state.
• master(1) – Master state.
• backup(2) – Backup state.
snVrrpVirRtr2IpAddrMask
fdry.1.2.12.5.1.1.10
Syntax: Octet string
Read-write The number of IP Addresses of this virtual router of this interface
snVrrpVirRtr2Activate
fdry.1.2.12.5.1.1.11
Syntax: Integer
Read-write Indicates if VRRP or VRRPE router is enabled.
• disabled(0) – The router is deactivated
• enabled(1) – The router has been activated
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 16-15
Foundry Management Information Base Reference
snVrrpVirRtr2RowStatus
fdry.1.2.12.5.1.1.12
Syntax: Integer
Read-write Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
• If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
• The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snVrrpVirRtr2RxArpPktDropCnts
fdry.1.2.12.5.1.1.13
Syntax: Counter
Read only Shows the number of ARP packets addressed to the interface that were dropped.
snVrrpVirRtr2RxIpPktDropCnts
fdry.1.2.12.5.1.1.14
Syntax: Counter
Read only Shows the number of IP packets addressed to the interface that were dropped.
snVrrpVirRtr2RxPortMismatchCnts
fdry.1.2.12.5.1.1.15
Syntax: Counter
Read only Shows the number of packets received that did not match the configuration for the receiving interface.
snVrrpVirRtr2RxNumOfIpMismatchCnts
fdry.1.2.12.5.1.1.16
Syntax: Counter
Read only Shows the number of packets received that did not match the configured IP addresses.
snVrrpVirRtr2RxIpMismatchCnts
fdry.1.2.12.5.1.1.17
Syntax: Counter
Read only Shows the number of VRRP IP addresses received that did not match the VRRP or VRRPE addresses
snVrrpVirRtr2RxHelloIntMismatchCnts
fdry.1.2.12.5.1.1.18
Syntax: Counter
Read only Shows the number of packets received that did not match the configured Hello interval.
snVrrpVirRtr2RxPriorityZeroFromMasterCnts
fdry.1.2.12.5.1.1.19
Syntax: Counter
Read only Shows the count of the virtual router interface that received priority zero from the master.
Name, OID, and Syntax Access Description
16-16 © 2008 Foundry Networks, Inc. April 2008
Router Redundancy Protocols
snVrrpVirRtr2RxHigherPriorityCnts
fdry.1.2.12.5.1.1.20
Syntax: Counter
Read only Shows the number of packets received by the interface that had a higher backup priority for the VRID than this interface’s backup priority for the VRID.
snVrrpVirRtr2TransToMasterStateCnts
fdry.1.2.12.5.1.1.21
Syntax: Counter
Read only Shows the number of times this interface has changed from the master state to the backup state for the VRID.
snVrrpVirRtr2TransToBackupStateCnts
fdry.1.2.12.5.1.1.22
Syntax: Counter
Read only Shows the number of times this interface has changed from the master state to the backup state.
snVrrpVirRtr2CurrDeadInt
fdry.1.2.12.5.1.1.23
Syntax: Integer
Read only Shows the current dead interval in 100 milliseconds for the virtual router. This is the time period that a backup waits for a Hello message from the master before determining that the Master is no longer active. If the Master does not send a Hello message before the dead interval expires, the backups negotiate (compare priorities) to select a new master for the VRID.
snVrrpVirRtr2TrackPortList
fdry.1.2.12.5.1.1.24
Syntax: Octet string
Read-write Specifies the router’s physical track port membership. The membership includes physical port and virtual ports whose state is to be monitored.
Each port index is an ifIndex. If there are four or more consecutive ifIndexes, then encoding and decoding scheme is range based, as follows:
• Each range prefix with 0000 (2 octets) is not a valid ifIndex.
• The first two octets in a set of four octets indicate the beginning of the range. The next two octets show the end of the range.
• IfIndexes that are not in a range are displayed as it is.
For example, you may see the following lists:
• Port list: 0001..0005 0015 0032..0047
0001..0005 and 0032..0047 show ranges of ifindexes; whereas, 0015 is one ifindex
• Port list in PDU: 0000 0001 0005 000f 0000 0020 002f
The list contains ifindexes not in a range.
If this object is configured, then the Preference Level of this interface will be adjusted dynamically depending on the state of the Track Port. The interface's Preference Level is reduced by the value of Preference Level parameter when the Track Port states first changes from Up to Down. When the Track Port returns to the Up state, the interface's Preference Level is increased by the amount specified by the Preference Level.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 16-17
Foundry Management Information Base Reference
VSRP Virtual Switch Redundancy Protocol (VSRP) is a Foundry proprietary protocol that provides redundancy and sub-second failover in Layer 2 and Layer 3 mesh topologies. Based on the Foundry Virtual Router Redundancy Protocol Extended (VRRPE), VSRP provides one or more backups for a Layer 2 Switch or Layer 3 Switch. If the active Layer 2 Switch or Layer 3 Switch becomes unavailable, one of the backups takes over as the active device and continues forwarding traffic for the network.
Refer to the configuration guide for your Foundry device for detailed discussion on VSRP.
The following objects are available for VSRP to provide SNMP support for VSRP:
• “Global VSRP Objects” on page 16-18
• “VSRP Interface Table” on page 16-19
• “VSRP Virtual Router Table” on page 16-20
These MIB objects are supported in the Foundry MIB of the following software releases:
• BigIron software release 07.6.01 and later.
• NetIron Multi-Service IronWare software release 03.8.00 and later.
Global VSRP ObjectsThe following are the global objects for VSRP. They are equivalent to the router vsrp and snmp-server enable traps vsrp CLI commands.
snVrrpVirRtr2AdvertiseBackup
fdry.1.2.12.5.1.1.25
Syntax: Integer
Read-write Indicates if the ability for this Backup to advertise itself to the current Master is enabled:
• disabled(0)
• enabled(1)
Default: disabled(0}.
snVrrpVirRtr2MasterIpAddr
fdry.1.2.12.5.1.1.26
Syntax: IpAddress
Read only Shows the Master’s real or virtual (primary) IP address. This IP address is listed as the source in VRRP and VRRPE advertisement that was last received by this virtual router.
snVrrpVirRtr2IpAddrCount
fdry.1.2.12.5.1.1.27
Syntax: Integer
Read only Shows the number of IP addresses that are associated with this virtual router. This number is equal to the number or rows in the vrrpAssoIpAddrTable of the standard MIB that corresponds to a given ifindex and VRID pair.
snVrrpVirRtr2VirtualMacAddr
fdry.1.2.12.5.1.1.28
Syntax: MAC address
Read only Shows the virtual MAC address of the virtual router.
Name, OID, and Syntax Access Description
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Router Redundancy Protocols
NOTE: Only one of the virtual router protocols can be enabled at any one time.
VSRP Interface TableThe following table contains objects used to configure VSRP interfaces. They are equivalent to the vsrp auth-type CLI command.
NOTE: Make sure that “snVsrpGroupOperModeVsrp” is set to enable(1).
Name, OID, and Syntax Access Description
snVsrpGroupOperModeVsrp
fdry.1.1.3.21.1.1
Syntax: Integer
Read-write Indicates if VSRP is enabled or disable on this system:
• disabled(0) - the default.
• enabled(1)
snVsrpGroupOperModeVsrp
fdry.1.1.3.21.1.2
Syntax: Integer
Read-write Indicateds if a trap is generated whenever a VSRP state change occurs.
• disabled(0)
• enabled(1 )- the default.
snVsrpIfMaxNumVridPerIntf
fdry.1.1.3.21.1.3
Syntax: Integer
Read only Indicates the maximum number of VRID that an interface can have.
snVsrpIfMaxNumVridPerSystem
fdry.1.1.3.21.1.4
Syntax: Integer
Read only Indicates the maximum number of VRID that a system can have.
snVsrpClearVrrpStat
fdry.1.1.3.21.1.5
Syntax: Integer
Read-write Clears the VSRP statistics.
• normal(0)
• clear(1 )
Name, OID, and Syntax Access Description
snVsrpIfTable
fdry.1.1.3.21.2.1
None The VSRP Interface Table
snVsrpIfEntry
fdry.1.1.3.21.2.1.1
None An entry in the VSRP Interface Table.
snVsrpIfVlanId
fdry.1.1.3.21.2.1.1.1
Syntax: Integer
Read-only VLAN ID used to index the entries in this table.
April 2008 © 2008 Foundry Networks, Inc. 16-19
Foundry Management Information Base Reference
VSRP Virtual Router TableThe VSRP Virtual Router Table describes the configuration of the VSRP virtual router. They are equivalent to the vsrp vrid and show vsrp CLI commands.
snVsrpIfAuthType
fdry.1.1.3.21.2.1.1.2
Syntax: Integer
Read-write Indicates the authorization type used to verify access to the interface:
• noAuth(0)
• simpleTextPasswd(1)
• ipAuthHeader(2)
(Not supportted in NetIron Multi-Service IronWare software releases.)
snVsrpIfAuthPassword
fdry.1.1.3.21.2.1.1.3
Syntax: Octet string
Read-write Defines the password required if the “snVsrpIfAuthType” object is set to simpleTextPasswd(1). This object can contain 1 – 7 octets.
Name, OID, and Syntax Access Description
snVsrpVirRtrTable
fdry.1.1.3.21.3.1
None The VSRP Virtual Router Table
snVsrpVirRtrEntry
fdry.1.1.3.21.3.1.1
None An entry in the VSRP Virtual Router Table.
snVsrpVirRtrVlanId
fdry.1.1.3.21.3.1.1.1
Syntax: Integer
Read only VLAN index of the VSRP router.
snVsrpVirRtrId
fdry.1.1.3.21.3.1.1.2
Syntax: Integer
Read only Shows a virtual router ID for the interface.
snVsrpVirRtrOwnership
fdry.1.1.3.21.3.1.1.3
Syntax: Integer
Read-write Indicates the owner of the VSRP router interface. The owner or master router owns the IP addresses associated with the VRID:
• incomplete(0) – No IP address has been assigned to this interface.
• owner(1) – This does not apply to VSRP.
• backup(2) – The backup router is the owner of the interface. This is the only value that can be assigned to a VSRP router interface.
Name, OID, and Syntax Access Description
16-20 © 2008 Foundry Networks, Inc. April 2008
Router Redundancy Protocols
snVsrpVirRtrCfgPriority
fdry.1.1.3.21.3.1.1.4
Syntax: Integer
Read-write Indicates the preferability of a router for becoming the active router for the interface. A higher number indicates a higher priority. If two or more devices are tied with the highest priority, the Backup interface with the highest IP address becomes the active router for the VRID.
This object can be set only if “snVsrpVirRtrCfgPriority” is set to backup(2)
Valid values: 1 – 254
Default: 100.
snVsrpVirRtrTrackPriority
fdry.1.1.3.21.3.1.1.5
Syntax: Integer
Read-write Indicates the amount by which the default track priority is reduced when a tracked interface goes down. The higher the number, the higher the priority.
After this object is configured, the “snVsrpVirRtrCurrPriority” of this interface will be adjusted dynamically with this track priority the first time the Track Port states changes from UP to DOWN
NOTE: Supported in the NetIron Multi-Service IronWare software release 03.8.00 and later.
Valid values: 1 – 254
snVsrpVirRtrCurrPriority
fdry.1.1.3.21.3.1.1.6
Syntax: Integer
Read only The current VSRP priority of this Layer 3 Switch for the VRID. The current priority can differ from the configured priority for the following reasons:
• The VRID is still in the initialization stage and has not become a Master or Backup. In this case, the current priority is 0.
• The VRID is configured with track ports and the link on a tracked interface has gone down.
A higher number indicates a higher priority.
This object is adjusted dynamically when the tracked port first changes from Up to Down.
Valid values: 1 – 254.
snVsrpVirRtrHelloInt
fdry.1.1.3.21.3.1.1.7
Syntax: Integer
Read-write Shows the number of seconds between hello advertisements sent from the master and the backup.
Valid values: 1 – 84.
Default: 1 second.
NOTE: This object cannot be combined with either the snVsrpVirRtrDeadInt or snVsrpVirRtrHoldDownInt object in one SNMP set request.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 16-21
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snVsrpVirRtrDeadInt
fdry.1.1.3.21.3.1.1.8
Syntax: Integer
Read-write Shows the number of seconds a Backup waits for a Hello message from the Master for the VRID before determining that the Master is no longer active. If the Master does not send a Hello messages before the dead interval expires and the backups negotiate (compare priorities) to select a new master for the
Valid values: 1 – 84.
Default: 3 seconds.
NOTE: This object cannot be combined with the snVsrpVirRtrHelloInt object in one SNMP set request.
snVsrpVirRtrPreemptMode
fdry.1.1.3.21.3.1.1.9
Syntax: Integer
Read-write Enables or disables preemption. When preemption is enabled, a higher priority Backup router preempts a lower priority Master.
• disabled(0)
• enabled(1) - the default.
snVsrpVirRtrState
fdry.1.1.3.21.3.1.1.10
Syntax: Integer
Read only Specifies the virtual router’s interface state:
• init(0) – Initialization state
• master(1) – Master state
• backup(2) – Backup state
snVsrpVirRtrIpAddrMask
fdry.1.1.3.21.3.1.1.11
Syntax: Octet string
Read-write The numbers of IP Addresses for this virtual router of this interface. This object is for Layer 3 VSRP."
Valid values: Up to 64 octets
snVsrpVirRtrActivate
fdry.1.1.3.21.3.1.1.12
Syntax: Integer
Read-write Indicates if VRRP or VRRPE router has been activated.
• disabled(0) – The router has not been activated
• enabled(1) – The router has been activated
Name, OID, and Syntax Access Description
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Router Redundancy Protocols
snVsrpVirRtrTrackPortList
fdry.1.1.3.21.3.1.1.13
Syntax: Octet string
Read-write Specifies the router’s physical track port membership. The membership includes physical port and virtual ports whose state is to be monitored.
Each port index is an ifIndex. If there are four or more consecutive ifIndexes, then encoding and decoding scheme is range based, as follows:
• Each range prefix with 0000 (2 octets) is not a valid ifIndex.
• The first two octets in a set of four octets indicate the beginning of the range. The next two octets show the end of the range.
• Ifindexes that are not in a range are displayed as individual indexes.
For example, you may see the following lists:
• Port list: 0001..0005 0015 0032..0047
0001..0005 and 0032..0047 show ranges of ifindexes; whereas, 0015 is one ifindex
• Port list in PDU: 0000 0001 0005 000f 0000 0020 002f
The list contains ifindexes not in a range.
If this object is configured, then the Preference Level of this interface will be adjusted dynamically depending on the state of the Track Port. The interface's Preference Level is reduced by the value of Preference Level parameter when the Track Port states first changes from Up to Down. When the Track Port returns to the Up state, the interface's Preference Level is increased by the amount specified by the Preference Level.
snVsrpVirRtrAdvertiseBackup
fdry.1.1.3.21.3.1.1.14
Syntax: Integer
Read-write Indicates if the ability for this Backup to advertise itself to the current Master is enabled:
• disabled(0)
• enabled(1)
Default: disabled(0).
snVsrpVirRtrHoldDownInt
fdry.1.1.3.21.3.1.1.15
Syntax: Integer
Read-write The amount of time a Backup that has sent a Hello packet announcing its intent to become Master waits before beginning to forward traffic for the VRID. The hold-down interval prevents Layer 2 loops from occurring during VSRP’s rapid failover.
The interval can from 1 – 84 seconds.
Default: 2 seconds.
NOTE: This object cannot be combined the snVsrpVirRtrHelloInt object in one SNMP set request.
Name, OID, and Syntax Access Description
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snVsrpVirRtrInitTtl
fdry.1.1.3.21.3.1.1.16
Syntax: Integer
Read-write Indicates the time-to-live value (TTL) in the hello packets. TTL is the maximum number of hops a VSRP Hello packet can traverse before being dropped. TTL in a packet helps regulate the distance that a hello packet can travel. It prevents the flooding of VSRP hello packets in the network.
Valid values: 1 – 84 seconds.
Default: 1 second on most devices; 2 seconds in the NetIron Multi-Service IronWare software release 03.8.00 and later.
snVsrpVirRtrIncPortList
fdry.1.1.3.21.3.1.1.17
Syntax: Octet string
Read-write Groups all free ports of a VLAN into their control ports.
snVrrpVirRtrBackupInt
fdry.1.1.3.21.3.1.1.19
Syntax: Integer
Read-write Indicates the time interval when backup routers send hellp mesage advertisements.
Valid values: 60 – 3600 seconds
Default: 60 seconds
snVsrpVirRtrRowStatus
fdry.1.1.3.21.3.1.1.20
Syntax: Integer
Read-write Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
• The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snVsrpVirRtrRxNumOfIpMismatchCnts
fdry.1.1.3.21.3.1.1.24
Syntax: Counter32
Read only NOTE: Supported in the NetIron Multi-Service IronWare software release 03.8.00 and later.
Shows the received number of mismatched IP addresses for VSRP.
snVsrpVirRtrRxIpMismatchCnts
fdry.1.1.3.21.3.1.1.25
Read only NOTE: Supported in the NetIron Multi-Service IronWare software release 03.8.00 and later.
Shows the number of received VSRP IP Addresses that are mismatched.
snVsrpVirRtrRxHelloIntMismatchCnts
fdry.1.1.3.21.3.1.1.26
Syntax: Counter32
NOTE: Supported in the NetIron Multi-Service IronWare software release 03.8.00 and later.
Shows the number of the virtual router interface with hello interval that are mismatched.
Name, OID, and Syntax Access Description
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snVsrpVirRtrRxPriorityZeroFromMasterCnts
fdry.1.1.3.21.3.1.1.27
Syntax: Counter32
Read only NOTE: Supported in the NetIron Multi-Service IronWare software release 03.8.00 and later.
Shows the number of advertisements with priority of zero received from the master.
snVsrpVirRtrTransToMasterStateCnts
fdry.1.1.3.21.3.1.1.29
Syntax: Counter32
Read only Shows the number of times this interface has changed from the master state to the backup state for the VRID.
snVsrpVirRtrTransToBackupStateCnts
fdry.1.1.3.21.3.1.1.30
Syntax: Counter32
Read only Shows the number of times this interface has changed from the master state to the backup state.
snVsrpVirRtrCurrDeadInt
fdry.1.1.3.21.3.1.1.31
Syntax: Integer
Read only Shows the current dead in 100-millisecond intervals for the virtual router. This is the time period that a backup waits for a Hello message from the master before determining that the Master is no longer active. If the Master does not send a Hello message before the dead interval expires and the backups negotiate (compare priorities) to select a new master for the
snVsrpVirRtrCurHelloInt
fdry.1.1.3.21.3.1.1.32
Syntax: Integer
Read only Shows the current backup router hello interval.
snVsrpVirRtrCurHoldDownInt
fdry.1.1.3.21.3.1.1.33
Syntax: Integer
Read only Shows the current value of the hold-down interval.
Valid values: 1 - 84
snVsrpVirRtrCurInitTtl
fdry.1.1.3.21.3.1.1.34
Syntax: Integer
Read only Shows the current time-to-live value.
Valid values: 1 - 255
snVsrpVirRtrHelloMacAddress
fdry.1.1.3.21.3.1.1.35
Syntax: MAC address
Read only NOTE: Supported in the NetIron Multi-Service IronWare software release 03.8.00 and later.
Shows the Hello MAC address
snVsrpVirRtrHelloIpAddress
fdry.1.1.3.21.3.1.1.36
Syntax: IpAddress
Read only NOTE: Supported in the NetIron Multi-Service IronWare software release 03.8.00 and later.
Shows the master router's real/virtual (primary) IP address. This is the IP address listed as the source in VSRP advertisement, which is last received by this virtual router.
Name, OID, and Syntax Access Description
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Support for the NetIron XMR, NetIron MLX and BigIron RXVRRP and VRRP-E are supported on the NetIron XMR, NetIron MLX release 03.9.00, and BigIron RX release 02.6.00. The Foundry implementation fully complies with RFC 2787 - Definitions of Managed Objects for the Virtual Router Redundancy Protocol.
VSRP Virtual Router Table The VSRP Virtual Router Table describes the configuration of the VRRP virtual router.
Table 16.1:
Name, OID, and Syntax Access Description
snVsrpVirRtrTable
fdry.1.1.3.21.3.1
None The VSRP Virtual Router Table
snVsrpVirRtrEntry
fdry.1.1.3.21.3.1.1
None An entry in the VSRP Virtual Router Table.
snVsrpVirRtrVlanId
fdry.1.1.3.21.3.1.1.1
Syntax: Integer
Read-only VLAN index of the VSRP router.
snVsrpVirRtrId
fdry.1.1.3.21.3.1.1.2
Syntax: Integer
Read-only Shows a virtual router ID for the interface.
snVsrpVirRtrOwnership
fdry.1.1.3.21.3.1.1.3
Syntax: Integer
Read-write Indicates the owner of the VSRP router interface. The owner or master router owns the IP addresses associated with the VRID:
• incomplete(0) – No IP address has been assigned to this interface.
• owner(1) – This does not apply to VSRP.
• backup(2) – The backup router is the owner of the interface. This is the only value that can be assigned to a VSRP router interface.
snVsrpVirRtrCfgPriority
fdry.1.1.3.21.3.1.1.4
Syntax: Integer
Read-write Indicates the preferability of a router for becoming the active router for the interface. A higher number indicates a higher priority. If two or more devices are tied with the highest priority, the Backup interface with the highest IP address becomes the active router for the VRID.
This object can be set only if “snVsrpVirRtrCfgPriority” is set to backup(2)
Valid values: 1 – 254
Default: 100.
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Router Redundancy Protocols
snVsrpVirRtrTrackPriority
fdry.1.1.3.21.3.1.1.5
Syntax: Integer
Read-write Applies to interfaces that are configured with track ports.
It indicates the priority of the track ports. A higher number indicates a higher priority.
This object dynamically adjusts the value of the “snVrrpVirRtr2CfgPriority” object when the Track Port state first changes from Up to Down.
Valid values: 1 – 254.
snVsrpVirRtrCurrPriority
fdry.1.1.3.21.3.1.1.6
Syntax: Integer
Read-only The current VSRP priority of this Layer 3 Switch for the VRID. The current priority can differ from the configured priority for the following reasons:
• The VRID is still in the initialization stage and has not become a Master or Backup. In this case, the current priority is 0.
• The VRID is configured with track ports and the link on a tracked interface has gone down.
A higher number indicates a higher priority.
This object is adjusted dynamically when the tracked port first changes from Up to Down.
Valid values: 1 – 254.
snVsrpVirRtrHelloInt
fdry.1.1.3.21.3.1.1.7
Syntax: Integer
Read-write Shows the number of seconds between hello advertisements sent from the master and the backup.
Valid values: 1 – 84.
Default: 1 second.
snVsrpVirRtrDeadInt
fdry.1.1.3.21.3.1.1.8
Syntax: Integer
Read-write Shows the number of seconds a Backup waits for a Hello message from the Master for the VRID before determining that the Master is no longer active. If the Master does not send a Hello messages before the dead interval expires and the backups negotiate (compare priorities) to select a new master for the
Valid values: 1 – 84.
Default: 1 second.
snVsrpVirRtrState
fdry.1.1.3.21.3.1.1.10
Syntax: Integer
Read-only Specifies the virtual router’s interface state:
• init(0) – Initialization state
• master(1) – Master state
• backup(2) – Backup state
snVsrpVirRtrActivate
fdry.1.1.3.21.3.1.1.12
Syntax: Integer
Read-write Indicates if VRRP or VRRPE router has been activated.
• disabled(0) – The router has not been activated
• enabled(1) – The router has been activated
Name, OID, and Syntax Access Description
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snVsrpVirRtrCurrPriority
fdry.1.1.3.21.3.1.1.13
Syntax: Octet string
Read-write Specifies the router’s physical track port membership. The membership includes physical port and virtual ports whose state is to be monitored.
Each port index is an ifIndex. If there are four or more consecutive ifIndexes, then encoding and decoding scheme is range based, as follows:
• Each range prefix with 0000 (2 octets) is not a valid ifIndex.
• The first two octets in a set of four octets indicate the beginning of the range. The next two octets show the end of the range.
• Ifindexes that are not in a range are displayed as individual indexes.
For example, you may see the following lists:
• Port list: 0001..0005 0015 0032..0047
0001..0005 and 0032..0047 show ranges of ifindexes; whereas, 0015 is one ifindex
• Port list in PDU: 0000 0001 0005 000f 0000 0020 002f
The list contains ifindexes not in a range.
If this object is configured, then the Preference Level of this interface will be adjusted dynamically depending on the state of the Track Port. The interface's Preference Level is reduced by the value of Preference Level parameter when the Track Port states first changes from Up to Down. When the Track Port returns to the Up state, the interface's Preference Level is increased by the amount specified by the Preference Level.
snVsrpVirRtrAdvertiseBackup
fdry.1.1.3.21.3.1.1.14
Syntax: Integer
Read-write Indicates if the ability for this Backup to advertise itself to the current Master is enabled:
• disabled(0)
• enabled(1)
Default: disabled(0}.
snVsrpVirRtrHoldDownInt
fdry.1.1.3.21.3.1.1.15
Syntax: Integer
Read-write The amount of time a Backup that has sent a Hello packet announcing its intent to become Master waits before beginning to forward traffic for the VRID. The hold-down interval prevents Layer 2 loops from occurring during VSRP’s rapid failover.
The interval can from 1 – 84 seconds.
Default: 2 seconds.
snVsrpVirRtrInitTtl
fdry.1.1.3.21.3.1.1.16
Syntax: Integer
Read-write Indicates the time-to-live value (TTL) in the hello packets. TTL is the maximum number of hops a VSRP Hello packet can traverse before being dropped. TTL in a packet helps regulate the distance that a hello packet can travel. It prevents the flooding of VSRP hello packets in the network.
Valid values: 1 – 84 seconds.
Default: 1 second.
Name, OID, and Syntax Access Description
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Router Redundancy Protocols
snVsrpVirRtrIncPortList
fdry.1.1.3.21.3.1.1.17
Syntax: Octet string
Read-write Groups all free ports of a VLAN into their control ports.
snVrrpVirRtrBackupInt
fdry.1.1.3.21.3.1.1.19
Syntax: Integer
Read-write Indicates the time interval when backup routers send hellp mesage advertisements.
Valid values: 60 – 3600 seconds
Default: 60 seconds
snVsrpVirRtrRowStatus
fdry.1.1.3.21.3.1.1.20
Syntax: Integer
Read-write Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
• The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snVsrpVirRtrTransToMasterStateCnts
fdry.1.1.3.21.3.1.1.29
Syntax: Counter
Read-only Shows the number of times this interface has changed from the master state to the backup state for the VRID.
snVsrpVirRtrTransToBackupStateCnts
fdry.1.1.3.21.3.1.1.30
Syntax: Counter
Read-only Shows the number of times this interface has changed from the master state to the backup state.
snVsrpVirRtrCurrDeadInt
fdry.1.1.3.21.3.1.1.31
Syntax: Integer
Read-only Shows the current dead in 100-millisecond intervals for the virtual router. This is the time period that a backup waits for a Hello message from the master before determining that the Master is no longer active. If the Master does not send a Hello message before the dead interval expires and the backups negotiate (compare priorities) to select a new master for the
snVsrpVirRtrCurHelloInt
fdry.1.1.3.21.3.1.1.32
Syntax: Integer
Read-only Shows the current backup router hello interval.
snVsrpVirRtrCurHoldDownInt
fdry.1.1.3.21.3.1.1.33
Syntax: Integer
Read-only Shows the current value of the hold-down interval.
Name, OID, and Syntax Access Description
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snVsrpVirRtrCurInitTtl
fdry.1.1.3.21.3.1.1.34
Syntax: Integer
Read-only Shows the current time-to-live value.
snVsrpVirRtrHelloMacAddress
fdry.1.1.3.21.3.1.1.35
Syntax: MAC address
Read-only Shows the Hello MAC address
snVsrpVirRtrMasterIpAddr
fdry.1.1.3.21.3.1.1.36
Syntax: IpAddress
Read-only Shows the master router's real/virtual (primary) IP address. This is the IP address listed as the source in VSRP advertisement, which is last received by this virtual router.
Name, OID, and Syntax Access Description
16-30 © 2008 Foundry Networks, Inc. April 2008
Chapter 17RIP
Routing Information Protocol (RIP) is an IP route exchange protocol that uses a distance vector (a number representing distance) to measure the cost of a given route. The cost is a distance vector because the cost often is equivalent to the number of hops between the Foundry Layer 3 Switch and the destination network.
A Foundry Layer 3 Switch can receive multiple paths to a destination. A RIP route can have a maximum cost of 15.
Refer to the Foundry Enterprise Configuration and Management Guide for details on the features discussed in this chapter.
IP RIP General Group
NOTE: IP RIP MIBs are supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
The following objects are general objects for RIP.
Name, OID, and Syntax Access Description
snRtIpRipEnable
fdry.1.2.3.1.1
Syntax: Integer
Read-write
Indicates if IP RIP routing is enabled:
• disabled(0)
• enabled(1)
Default: disabled
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snRtIpRipUpdateTime
fdry.1.2.3.1.2
Syntax: Integer
Read-write
Specifies the RIP update interval in seconds.
Valid values: 1 – 1000 seconds
snRtIpRipRedisEnable
fdry.1.2.3.1.3
Syntax: Integer
Read-write
Indicates if redistribution of static routes from the IP route table into RIP is enabled:
• disabled(0)
• enabled(1)
Default: disabled
snRtIpRipRedisDefMetric
fdry.1.2.3.1.4
Syntax: Integer
Read-write
Shows the default metric to be used when static routes are redistributed to RIP.
Valid values: 1 – 15
snRtIpRipSetAllPortConfig
fdry.1.2.3.1.5
Syntax: Integer
Read-write
The value of this object is a number corresponding to a row in the “snRtIpRipPortConfigPortIndex” object of the “snRtIpRipPortConfigTable” . The values of the “snRtIpRipPortVersion” and “snRtIpRipPortPoisonReverse” objects will be written to that row.
NOTE: Before setting this object, all the intended data of the given row of the table must be set. Otherwise, the current data of the row will be used to set the entire “IP RIP Port Configuration Table” . The previous setting will be overwritten by the new one.
snRtIpRipGblFiltList
fdry.1.2.3.1.6
Syntax: Octet string
Read-write
An IP RIP global filter list. Each octet contains a filter ID number that forms a group of filters. A valid entry in the “snRtIpRipRouteFilterTable” with the corresponding filter ID number in the “snRtIpRipRouteFilterId” object must be created before a filter list is initialized.
Valid values: 1 – 64 octets.
Name, OID, and Syntax Access Description
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RIP
IP RIP Port Configuration TableThe IP RIP Port Configuration Table contains the configuration of RIP on a particular interface. Before you can use this table, RIP must be enabled in the device and the “Redistribution Table” on page 17-4 must be configured with permit and deny commands.
NOTE: IP RIP MIBs are not supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
snRtIpRipFiltOnAllPort
fdry.1.2.3.1.7
Syntax: Integer
Read-write
Applies the IP RIP global filter object “snRtIpRipGblFiltList” to all interfaces. This object is used to add and delete all RIP filter lists to and from all interfaces. Prior to sending this command, “snRtIpRipGblFiltList” must contain the correct filter list.
The values that can be written are:
• deleteAllInBound(2) – delete all in-bound filter lists from all ports.
• deleteAllOutBound(3) – delete all out-bound filter lists from all ports.
• addAllInBound(4) – add all in-bound filter lists to all ports.
• addAllOutBound(5) – add all out-bound filter lists to all ports.
If a set operation failed, then a SET with value of (2) or (3) returns the error code "GenError". If the operation succeeded, then entries in this filter list are deleted immediately.
The following values can be returned on reads:
• valid(1) – set operation is done and is valid.
snRtIpRipDistance
fdry.1.2.3.1.8
Syntax: Integer
Read-write
Shows the administrative distance of this filter.
Valid values: 1 – 255.
Name, OID, and Syntax Access Description
snRtIpRipPortConfigTable
fdry.1.2.3.2
None The IP Rip Port Configuration Table.
snRtIpRipPortConfigEntry
fdry.1.2.3.2.1
None An entry in the IP Rip Port Configuration Table.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 17-3
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Redistribution TableThe RIP Redistribution Table contains routes where RIP routes will be redistributed. RIP can redistribute routes from other routing protocols such as OSPF and BGP4 into RIP. A redistributed route is one that a Layer 3 Switch learns through another protocol, then distributes into RIP.
snRtIpRipPortConfigPortIndex
fdry.1.2.3.2.1.1
Syntax: PortIndex
Read only The port index for an entry in the IP Rip Port Configuration Table.
snRtIpRipPortVersion
fdry.1.2.3.2.1.2
Syntax: Integer
Read-write
Specifies the IP RIP version on this port:
• disabled(0) – RIP is disabled on this port
• v1Only(1) – RIP version 1 only
• v2Only(2) – RIP version 2 only
• v1CompatibleV2(3) – RIP version 2 is compatible with version 1
snRtIpRipPortPoisonReverse
fdry.1.2.3.2.1.3
Syntax: Integer
Read-write
Indicates if poison reverse is enabled:
• disabled(0)
• enabled(1)
Poison reverse prevents routing loops and slow convergence within the network.
snRtIpRipPortLearnDefault
fdry.1.2.3.2.1.4
Syntax: Integer
Read-write
Indicates if the ability to learn advertised routes is enabled on the interface:
• disabled(0)
• enabled(1)
Name, OID, and Syntax Access Description
snRtIpRipRedisTable
fdry.1.2.3.3
None IP RIP Redistribution table.
snRtIpRipRedisEntry
fdry.1.2.3.3.1
None An entry in the IP RIP Redistribution table.
snRtIpRipRedisIndex
fdry.1.2.3.3.1.1
Syntax: Integer
Read only The table index for a IP RIP Redistribution entry. There can be up to 64 entries in this table.
snRtIpRipRedisAction
fdry.1.2.3.3.1.2
Syntax: Integer
Read-write
Indicates what to do if routes match this IP RIP Redistribution entry.
• deny(0)
• permit(1)
Name, OID, and Syntax Access Description
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RIP
snRtIpRipRedisProtocol
fdry.1.2.3.3.1.3
Syntax: Integer
Read-write
Indicates which protocol will to be distributed:
• other(1) – Cannot be used for SNMP-SET:
• all(2)
• static(3)
• ospf(4)
• bgp(5)
• isis(6)
snRtIpRipRedisIp
fdry.1.2.3.3.1.4
Syntax: IpAddress
Read-write
Shows the IP address of the IP route to be distributed. The address 0.0.0.0 means that all routes will be distributed.
snRtIpRipRedisMask
fdry.1.2.3.3.1.5
Syntax: IpAddress
Read-write
Shows the IP subnet mask of the IP route to be distributed.
snRtIpRipRedisMatchMetric
fdry.1.2.3.3.1.6
Syntax: Integer
Read-write
Specifies the metric of the route to be matched to determine the redistribution.
Valid values: 0 – 65535. A value of 0 means that any metric value will be matched.
snRtIpRipRedisSetMetric
fdry.1.2.3.3.1.7
Syntax: Integer
Read-write
Specifies the new metric of the route to be advertised.
Valid values: 0 – 15. A value of 0 indicates that the default metric will be used.
snRtIpRipRedisRowStatus
fdry.1.2.3.3.1.8
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snRtIpRipRedisRouteMapName
fdry.1.2.3.3.1.9
Syntax: Display string
Read-write
Indicates the name of the route map used for this redistribution entry.
Name, OID, and Syntax Access Description
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IP RIP Route Filter TableThe IP RIP Route Filter Table defines the IP network numbers the router will learn from the RIP protocol. The numbers are stored in the router’s IP routing table. Once RIP filters are defined, you can assign them to individual interfaces.
NOTE: IP RIP Route Filter MIBs are not supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
Name, OID, and Syntax Access Description
snRtIpRipRouteFilterTable
fdry.1.2.3.4
None IP RIP Route Filter Table.
snRtIpRipRouteFilterEntry
fdry.1.2.3.4.1
None An entry of the IP RIP route filter table.
snRtIpRipRouteFilterId
fdry.1.2.3.4.1.1
Syntax: Integer
Read only Shows the filter ID to identify a filter entry. There can be up to 64 entries in this table.
snRtIpRipRouteFilterAction
fdry.1.2.3.4.1.2
Syntax: Integer
Read-write
Indicates what action to take if the IP RIP packet matches this filter.
• deny(0)
• permit(1)
snRtIpRipRouteFilterIpAddr
fdry.1.2.3.4.1.3
Syntax: IpAddress
Read-write
Indicates the route IP address that needs to be matched by any IP address in a RIP packet. A value of 0.0.0.0 means that any IP address in any RIP packets will be matched.
snRtIpRipRouteFilterSubnetMask
fdry.1.2.3.4.1.4
Syntax: IpAddress
Read-write
If “snRtIpRipRouteFilterIpAddr” is 0, this value is ignored, and all IP RIP packets will be matched. Otherwise, this mask is applied to the IP RIP packet and then compared to “snRtIpRipRouteFilterIpAddr” to determine a match.
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RIP
IP RIP Neighbor Filter TableThe IP RIP Neighbor Filter Table specifies the routers from which a router will receive RIP routes. By default, RIP routes will be learned from all neighbors.
snRtIpRipRouteFilterRowStatus
fdry.1.2.3.4.1.5
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snRtIpRipNbrFilterTable
fdry.1.2.3.5
None IP RIP Neighbor Filter Table
snRtIpRipNbrFilterEntry
fdry.1.2.3.5.1
None An entry of the IP RIP neighbor filter table.
snRtIpRipNbrFilterId
fdry.1.2.3.5.1.1
Syntax: Integer
Read only Indicates the ID of this entry in the table. There can be up to 64 entries in this table.
snRtIpRipNbrFilterAction
fdry.1.2.3.5.1.2
Syntax: Integer
Read-write
Indicates what action to take if the source IP address in a packet matches the source IP address in this filter. The IP address to be matched is defined by the “snRtIpRipNbrFilterSourceIp” object.
• deny(0)
• permit(1)
snRtIpRipNbrFilterSourceIp
fdry.1.2.3.5.1.3
Syntax: IpAddress
Read-write
Shows the source IP address that needs to be matched by the RIP packet. An IP address of 0.0.0.0 always matches any source IP addresses in any IP RIP packets.
Name, OID, and Syntax Access Description
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Foundry Management Information Base Reference
IP RIP Port Access TableThe IP RIP Port Access Table allows a group of RIP filters to be applied to an IP interface. The filters can be applied to either incoming or outgoing traffic.
NOTE: IP RIP Port Access MIBs are not supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
snRtIpRipNbrFilterRowStatus
fdry.1.2.3.5.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snRtIpRipPortAccessTable
fdry.1.2.3.6
None IP interface RIP access table.
snRtIpRipPortAccessEntry
fdry.1.2.3.6.1
None An entry of the IP interface RIP access table.
snRtIpRipPortAccessPort
fdry.1.2.3.6.1.1
Syntax: PortIndex
Read only The port number to which the IP RIP filter applies.
snRtIpRipPortAccessDir
fdry.1.2.3.6.1.2
Syntax: Integer
Read only Specifies if the filter is for incoming or outgoing packets:.
• in(1) – Incoming packet
• out(2) – Outgoing packet
Name, OID, and Syntax Access Description
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RIP
Global RIP StatisticsThese objects provide global RIP statistics. They were introduced in Service Provider Release 09.1.02 and Enterprise IronWare Release 07.8.00.
NOTE: Global RIP Statistics MIBs are not supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
snRtIpRipPortAccessFilterList
fdry.1.2.3.6.1.3
Syntax: Octet string
Read-write
Contains an IP RIP filter list.
Valid values: Up to 64 octets. Each octet contains a filter ID number that consists of a group of filters. Before a filter list can be created, there must be valid entries in the IP RIP Route Filter Table (“snRtIpRipRouteFilterTable” object) with their corresponding filter ID number entered in the “snRtIpRipRouteFilterId” object.
snRtIpRipPortAccessRowStatus
fdry.1.2.3.6.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, Identifier, and Syntax Access Description
snRtIpRipStats
fdry.1.2.3.9
NA RIP Statistics group.
snRtIpRipStatsOutRequest
fdry.1.2.3.9.1
Syntax: Integer
Read only Number of outgoing RIP requests.
Name, OID, and Syntax Access Description
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snRtIpRipStatsOutResponse
fdry.1.2.3.9.2
Syntax: Integer
Read only Number of outgoing RIP responses.
snRtIpRipStatsInRequest
fdry.1.2.3.9.3
Syntax: Integer
Read only Number of incoming RIP requests.
snRtIpRipStatsInResponse
fdry.1.2.3.9.4
Syntax: Integer
Read only Number of incoming RIP responses.
snRtIpRipStatsUnrecognized
fdry.1.2.3.9.5
Syntax: Integer
Read only Number of unrecognized RIP packets.
snRtIpRipStatsBadVersion
fdry.1.2.3.9.6
Syntax: Integer
Read only Number of RIP packets with bad version number.
snRtIpRipStatsBadAddrFamily
fdry.1.2.3.9.7
Syntax: Integer
Read only Number of RIP packets with bad address family value.
snRtIpRipStatsBadRequestFormat
fdry.1.2.3.9.8
Syntax: Integer
Read only Number of RIP packets with bad request format.
snRtIpRipStatsBadMetrics
fdry.1.2.3.9.9
Syntax: Integer
Read only Number of RIP packets with bad metric value.
snRtIpRipStatsBadRespFormat
fdry.1.2.3.9.10
Syntax: Integer
Read only Number of RIP packets with bad response format.
snRtIpRipStatsRespFromNonRipPort
fdry.1.2.3.9.11
Syntax: Integer
Read only Number of RIP packet responses coming from non-RIP configured ports.
snRtIpRipStatsResponseFromLoopback
fdry.1.2.3.9.12
Syntax: Integer
Read only Number of RIP packet responses coming from loopback ports.
Name, Identifier, and Syntax Access Description
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RIP
RFC 1724 - RIP Version 2 MIB Extension
snRtIpRipStatsPacketRejected
fdry.1.2.3.9.13
Syntax: Integer
Read only Number of RIP packets rejected.
Name, Identifier, and Syntax Access Description
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17-12 © 2008 Foundry Networks, Inc. April 2008
Chapter 18Global Router and IP
This chapter shows the router objects in the MIB. It contains the following sections:
• “Global Router Objects” on page 18-1
• “IP General Group” on page 18-2
• “IP Static Route Table” on page 18-4
• “IP Filter Table” on page 18-5
• “IP Interface Port Address Table” on page 18-8
• “IP Interface Port Access Table” on page 18-9
• “IP Interface Port Configuration Table” on page 18-10
• “Broadcast Forwarding Group” on page 18-12
• “Trace Route Group” on page 18-15
• “IP Forwarding Cache Table” on page 18-18
• “IP Prefix List Table” on page 18-19
• “IP AS-Path Access List String Table” on page 18-22
Refer to the Foundry Enterprise Configuration and Management Guide for details on the features discussed in this chapter.
Global Router ObjectsThis section contains global MIB objects switching properties of the Layer 3 Switch, independent of any routing protocol.
Name, OID, and Syntax Access Description
snGblRtRouteOnly
fdry.1.2.8.1.1
Syntax: Integer
Read-write
Determines if the Layer 3 Switch will route or switch packets:
• disabled(0) – Router will first route the packets. If it cannot route them, it will switch packets.
• enabled(1) – Router will only route the packets; it will not switch them.
April 2008 © 2008 Foundry Networks, Inc. 18-1
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IP General GroupThe following are general objects for the IP group.
Name, OID, and Syntax Access Description
snRtClearArpCache
fdry.1.2.2.1.1
Syntax: ClearStatus
Read-write
Clears learned ARP entries but does not remove any static ARP entries. The value for this object can be:
• normal(0) – Do not clear learned entries
• clear(1) – Clear learned entries
This object is also available in the ServerIron.
snRtClearIpCache
fdry.1.2.2.1.2
Syntax: ClearStatus
Read-write
Clears the entries in the IP Forwarding Cache Table. The value for this object can be:
• normal(0) – Do not clear entries
• clear(1) – Clear entries
• This object is also available in the ServerIron.
snRtClearIpRoute
fdry.1.2.2.1.3
Syntax: ClearStatus
Read-write
Clears the IP route tables. The value for this object can be:
• normal(0) – Do not clear entries
• clear(1) – Clear entries
• This object is also available in the ServerIron.
snRtBootpServer
fdry.1.2.2.1.4
Syntax: IpAddress
Read-write
Shows the IP address of the bootp server to which bootp packet need to be relayed.
snRtBootpRelayMax
fdry.1.2.2.1.5
Syntax: Integer
Read-write
Specifies the maximum number of hops the bootp packet should travel.
Valid values: Up to 15 hops
snRtArpAge
fdry.1.2.2.1.6
Syntax: Integer
Read-write
Specifies the number of minutes that an ARP entry can be valid without having to be relearned.
Valid values: Up to 240 minutes. A value of zero (0) means that the entry will not age out.
snRtIpIrdpEnable
fdry.1.2.2.1.7
Syntax: Integer
Read-write
Indicates if router advertisement is enabled on this device:
• disabled(0)
• enabled(1)
snRtIpLoadShare
fdry.1.2.2.1.8
Syntax: Integer
Read-write
Indicates if more than one route will be enabled to share the loads:
• disabled(0)
• enabled(1)
snRtIpProxyArp
fdry.1.2.2.1.9
Syntax: Integer
Read-write
Indicates if the proxy ARP function is enabled:
• disabled(0)
• enabled(1)
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Global Router and IP
snRtIpRarp
fdry.1.2.2.1.10
Syntax: Integer
Read-write
Indicates if the RARP server is enabled:
• disabled(0)
• enabled(1)
snRtIpTtl
fdry.1.2.2.1.11
Syntax: Integer
Read-write
Indicates the time-to-live (TTL) value that will be used in the IP header of an IP packet that was generated by this device.
Valid values: 1 – 255
snRtIpSetAllPortConfig
fdry.1.2.2.1.12
Syntax: Integer
Read-write
Shows the index number of a row in the “snRtIpPortConfigTable” on page 18-10, such as “snRtIpPortConfigPortIndex” on page 18-11. All the writeable data from that row will be copied to all appropriate rows in all IP Interface Port Configuration Tables
NOTE: Prior to setting this object, make sure that the row identified in this object contains a value for all its objects; otherwise, the current data of the row will be used to set the entire IP interface configuration table.
snRtIpFwdCacheMaxEntries
fdry.1.2.2.1.13
Syntax: Integer
Read only Shows the maximum number of entries in the IP Forwarding Cache Table.
snRtIpFwdCacheCurEntries
fdry.1.2.2.1.14
Syntax: Integer
Read only Shows the current number of entries in the IP Forwarding Cache Table.
snRtIpMaxStaticRouteEntries
fdry.1.2.2.1.14
Syntax: Integer
Read only Shows the maximum number of entries in the IP Static Route table.
snRtIpDirBcastFwd
fdry.1.2.2.1.16
Syntax: Integer
Read-write
Indicates if the directed broadcast forwarding feature is enabled:
• disabled(0)
• enabled(1)
snRtIpLoadShareNumOfPaths
fdry.1.2.2.1.17
Syntax: Integer
Read-write
Specifies the number of routes to be used to share the load.
snRtIpLoadShareMaxPaths
fdry.1.2.2.1.18
Syntax: Integer
Read only Indicates the maximum number of routes that can be configured to share the loads.
snRtIpLoadShareMinPaths
fdry.1.2.2.1.19
Syntax: Integer
Read only Indicates the minimum number of routes that can be configured to share the loads.
Name, OID, and Syntax Access Description
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IP Static Route TableThe IP Static Route Table contains a list of static routes. These routes can be one of the following types:
• Standard – the static route consists of the destination network address and network mask, plus the IP address of the next-hop gateway.
• Interface-based – the static route consists of the destination network address and network mask, plus the Layer 3 Switch interface through which you want the Layer 3 Switch to send traffic for the route. Typically, this type of static route is for directly attached to destination networks.
• Null – the static route consists of the destination network address and network mask, plus the “null0” parameter. Typically, the null route is configured as a backup route for discarding traffic if the primary route is unavailable.
IP Static Route Table also serves as the default route table.
snRtIpProtocolRouterId
fdry.1.2.2.1.20
Syntax: IpAddress
Read-write
Shows the router ID for all IP Protocols.
snRtIpSourceRoute
fdry.1.2.2.1.21
Syntax: Integer
Read-write
Indicates if strict source routing is enabled to drop source routed packets:
• disabled(0)
• enabled(1)
Name, OID, and Syntax Access Description
snRtIpStaticRouteTable
fdry.1.2.2.2
None IP static route table
snRtIpStaticRouteEntry
fdry.1.2.2.2.1
None An entry in the IP static route table.
snRtIpStaticRouteIndex
fdry.1.2.2.2.1.1
Syntax: Integer
Read only The table index for a static route entry.
snRtIpStaticRouteDest
fdry.1.2.2.2.1.2
Syntax: IpAddress
Read-write
Shows the destination IP address of the default route. The address 0.0.0.0 is the IP address of the default router.
snRtIpStaticRouteMask
fdry.1.2.2.2.1.3
Syntax: IpAddress
Read-write
Shows the subnet mask of the default route’s destination IP address. The subnet mask 0.0.0.0 is the subnet mask of the default router.
snRtIpStaticRouteNextHop
fdry.1.2.2.2.1.4
Syntax: IpAddress
Read-write
Shows the IP address of the next-hop router (gateway) for the route.
Name, OID, and Syntax Access Description
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Global Router and IP
IP Filter TableAn IP filter is an access policy that determines whether the device forwards or drops IP packets. A filter consists of source and destination IP information and the action to take when a packet matches the values in the filter.
The following objects define IP Filters. They are available in all Foundry products.
snRtIpStaticRouteMetric
fdry.1.2.2.2.1.5
Syntax: Integer
Read-write
Shows the metrics to next hop router.
Default: 1
snRtIpStaticRouteRowStatus
fdry.1.2.2.2.1.6
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• other(1) – Row is inoperative
• valid(2) – Row exists and is valid
snRtIpStaticRouteDistance
fdry.1.2.2.2.1.7
Syntax: Integer
Read-write
Specifies the administrative distance of the route. When comparing equal routes to a destination, the Layer 3 Switch prefers lower administrative distances over higher ones.
Valid values: 1 – 255
Default: 1
Name, OID, and Syntax Access Description
snRtIpFilterTable
fdry.1.2.2.3
None IP Filter Table.
snRtIpFilterEntry
fdry.1.2.2.3.1
None An entry in the IP Filter Table
snRtIpFilterIndex
fdry.1.2.2.3.1.1
Syntax: Integer
Read only Shows the index for an entry in the IP Filter Table.
Name, OID, and Syntax Access Description
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snRtIpFilterAction
fdry.1.2.2.3.1.2
Syntax: Integer
Read-write
Determines what action to take if the IP packet matches this filter.
• deny(0)
• permit(1)
• qosEnabled(2)
Once you configure an IP access policy, the device denies all IP packets by default unless you explicitly permit them. Thus, if you want the device to permit all IP packets except the ones that you filter out, you must configure the last IP access policy to permit all IP packets.
snRtIpFilterProtocol
fdry.1.2.2.3.1.3
Syntax: Integer
Read-write
Specifies the transport protocol that you can filter. Only the traffic for the transport protocol selected will be allowed:
• all(0) – All traffic of the transport protocols listed below will be permitted
• ICMP(1)
• IGMP(2)
• IGRP(88)
• OSPF(89)
• TCP(6)
• UDP(17)
In addition, if you filter TCP or UDP, you can also specify a particular application port (such as “HTTP” or “80”) or a logical expression consisting of an operator and port names or numbers.
snRtIpFilterSourceIp
fdry.1.2.2.3.1.4
Syntax: IpAddress
Read-write
Shows the source IP address. The policy will be applied to packets that come from this IP address.
snRtIpFilterSourceMask
fdry.1.2.2.3.1.5
Syntax: IpAddress
Read-write
Shows the source IP subnet mask. The policy will be applied to packets that come from this subnet mask.
snRtIpFilterDestIp
fdry.1.2.2.3.1.6
Syntax: IpAddress
Read-write
Shows the destination IP address. The IP access policy will be applied to packets that are going to this IP address.
snRtIpFilterDestMask
fdry.1.2.2.3.1.7
Syntax: IpAddress
Read-write
Shows the destination IP subnet mask. The IP access policy will be applied to packets that are going to this subnet mask.
Name, OID, and Syntax Access Description
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Global Router and IP
snRtIpFilterOperator
fdry.1.2.2.3.1.8
Syntax: Integer
Read-write
Applies only if the value of the object “snRtIpFilterProtocol” is TCP or UDP.
It specifies the type of comparison to be performed to TCP and UDP packets:
• greater(1) – The policy applies to TCP or UDP port numbers that are greater than the value of the “snRtIpFilterOperand” object.
• equal(2) – The policy applies to TCP or UDP port numbers that are equal to the value of the “snRtIpFilterOperand” object.
• less(3) – The policy applies to TCP or UDP port numbers that are less than the value of the “snRtIpFilterOperand” object.
• notEqual(4) – The policy applies to all TCP or UDP port numbers except to those that are equal to the value of the “snRtIpFilterOperand” object.
snRtIpFilterOperand
fdry.1.2.2.3.1.9
Syntax: Integer
Read-write
Applies only if the value of the object “snRtIpFilterProtocol” is TCP or UDP.
Specifies the TCP or UDP port number that will be used in this filter.
Valid values: 0 – 65535. 0 means that this object is not applicable.
snRtIpFilterRowStatus
fdry.1.2.2.3.1.10
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snRtIpFilterEstablished
fdry.1.2.2.3.1.11
Syntax: Integer
Read-write
Applies only to TCP packets.
Indicates if the filtering of established TCP packets is enabled for packets that have the ACK or RESET flag on:
• disabled(0)
• enabled(1)
Name, OID, and Syntax Access Description
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IP Interface Port Address Table The IP Interface Port Address Table shows the port’s IP address and its port type.
snRtIpFilterQosPriority
fdry.1.2.2.3.1.12
Syntax: Integer
Read-write
The router Layer 4 QoS Priority values are:
• low(0) – lower priority
• high(1) – higher priority
The Priority values are:
• level0(0) – lower priority
• level1(1)
• level2(2)
• level3(3),
• level4(4)
• level5(5)
• level6(6)
• level7(7) – higher priority
Name, OID, and Syntax Access Description
snRtIpPortAddrTable
fdry.1.2.2.6
None IP port address table.
snRtIpPortAddrEntry
fdry.1.2.2.6.1
None An entry in the IP Port Address table.
snRtIpPortAddrPortIndex
fdry.1.2.2.6.1.1
Syntax: PortIndex
Read only The index of the port address entry.
• For FastIron or NetIron products, the value of this object is from 1 to 42
• For BigIron products, the value of this object is an encoded number:
Bit 0 to bit 7 – Port number.
Bit 8 to bit 11 – Slot number.
snRtIpPortAddress
fdry.1.2.2.6.1.2
Syntax: IpAddress
Read only Specifies the port IP address.
snRtIpPortSubnetMask
fdry.1.2.2.6.1.3
Syntax: IpAddress
Read-write
Specifies the port IP address subnet mask.
Name, OID, and Syntax Access Description
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Global Router and IP
IP Interface Port Access TableThis table determines if the port is for incoming or outgoing traffic and the filter used on the interface.
snRtIpPortAddrType
fdry.1.2.2.6.1.4
Syntax: Integer
Read-write
Shows the port type of the entry:
• primary(1)
• secondary(2)
Default: primary(1)
snRtIpPortRowStatus
fdry.1.2.2.6.1.5
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a set with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snRtIpPortAccessTable
fdry.1.2.2.7
None IP Port Access Table.
snRtIpPortAccessEntry
fdry.1.2.2.7.1
None An entry in the IP Port Access Table.
snRtIpPortAccessPortIndex
fdry.1.2.2.7.1.1
Syntax: PortIndex
Read only The index for an entry in the IP Port Access Table.
• For FastIron or NetIron products, the value of this object is from 1 to 42
• For BigIron products, the value of this object is an encoded number:
Bit 0 to bit 7 – Port number.
Bit 8 to bit 11 – Slot number.
Beginning with software release 07.2.00, the following values have been added:
Bit 16, set to 1 – Virtual router interface
Bit 17, set to 1 – Loopback interface.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 18-9
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Port Configuration TablesThe following table defines the size, encapsulation format, and cost of the packet that will be transmitted through a port.
IP Interface Port Configuration TableThe following table is used by all Foundry devices except BigIron MG8 and NetIron 40G (refer to “IP Interface Configuration Table” on page 18-12).
snRtIpPortAccessDirection
fdry.1.2.2.7.1.2
Syntax: Integer
Read only Specifies if the port is for incoming or outgoing traffic.
• in(1)
• out(2)
snRtIpPortAccessFilters
fdry.1.2.2.7.1.3
Syntax: Octet string
Read-write
Each octet represents a filter number.
snRtIpPortAccessRowStatus
fdry.1.2.2.7.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snRtIpPortConfigTable
fdry.1.2.2.8
None IP Port Configuration Table.
snRtIpPortConfigEntry
fdry.1.2.2.8.1
None An entry in the IP Port Configuration Table.
Name, OID, and Syntax Access Description
18-10 © 2008 Foundry Networks, Inc. April 2008
Global Router and IP
snRtIpPortConfigPortIndex
fdry.1.2.2.8.1.1
Syntax: PortIndex
Read only An index for an entry in the IP Port Configuration Table
• For FastIron or NetIron products, the value of this object is from 1 to 42
• For BigIron products, the value of this object is an encoded number:
Bit 0 to bit 7 – Port number.
Bit 8 to bit 11 – Slot number.
Beginning with software release 07.2.00, the following values have been added:
Bit 16, set to 1 – Virtual router interface
Bit 17, set to 1 – Loopback interface.
snRtIpPortMtu
fdry.1.2.2.8.1.2
Syntax: Integer
Read-write
Indicates the maximum size of IP packets that will be transmitted on the port.
snRtIpPortEncap
fdry.1.2.2.8.1.3
Syntax: Integer
Read-write
Shows the encapsulation format that will be used on the IP frame transmitted on the port.
• ethernet(1) – Ethernet
• snap(2) – ATM and Ethernet
• hdlc(3) – POS
• ppp(4) – POS
snRtIpPortMetric
fdry.1.2.2.8.1.4
Syntax: Integer
Read-write
Specifies the metric or cost to the router adds to the route.
Valid values: 1 – 15
Default: 1
snRtIpPortDirBcastFwd
fdry.1.2.2.8.1.5
Syntax: Integer
Read-write
Indicates if the directed broadcast forwarding feature is enabled. A directed broadcast is a packet containing all ones (or in some cases, all zeros) in the host portion of the destination IP address. When a router forwards such a broadcast, it sends a copy of the packet out each of its enabled IP interfaces:
• disabled(0)
• enabled(1)
Default: enabled(1)
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 18-11
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IP Interface Configuration TableThe snRtIpIfConfigTable defines the size, encapsulation format, and cost of the packet that will be transmitted through a port on BigIron MG8 and NetIron 40G devices. Other Foundry devices use the snRtIpPortConfigTable (refer to “IP Interface Port Configuration Table” on page 18-10).
Broadcast Forwarding GroupThis section contains the following tables:
• “General UDP Broadcast Forwarding Group” on page 18-13
Name, OID, and Syntax Access Description
snRtIpIfConfigTable
fdry.
None IP Port IF Configuration Table.
snRtIpIfConfigEntry
fdry.
None An entry in the IP Port IF Configuration Table.
snRtIpIfConfigInterfaceIndex
fdry.
Syntax: PortIndex
Read only An index for an entry in the IP Port Configuration Table.
snRtIpIfMtu
fdry.
Syntax: Integer
Read-write
Indicates the maximum size of IP packets that will be transmitted on the port.
snRtIpIfEncap
fdry.
Syntax: Integer
Read-write
Shows the encapsulation format that will be used on the IP frame transmitted on the port.
• ethernet(1) – Ethernet
• snap(2) – ATM and Ethernet
• hdlc(3) – POS
• ppp(4) – POS
• other(5)
snRtIpIfMetric
fdry.
Syntax: Integer
Read-write
Specifies the metric or cost to the router adds to the route.
Valid values: 1 – 15
Default: 1
snRtIpIfDirBcastFwd
fdry.
Syntax: Integer
Read-write
Indicates if the directed broadcast forwarding feature is enabled. A directed broadcast is a packet containing all ones (or in some cases, all zeros) in the host portion of the destination IP address. When a router forwards such a broadcast, it sends a copy of the packet out each of its enabled IP interfaces:
• disabled(0)
• enabled(1)
Default: enabled(1)
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Global Router and IP
• “UDP Broadcast Forwarding Port Table” on page 18-13
• “UDP Helper Table” on page 18-14
• “General Trace Route Group” on page 18-16
• “Trace Route Result Table” on page 18-17
General UDP Broadcast Forwarding Group
UDP Broadcast Forwarding Port TableThis table contains a list of UDP port numbers for which forwarding UDP broadcast is enabled.
Name, OID, and Syntax Access Description
snRtUdpBcastFwdEnable
fdry.1.2.2.9
Syntax: Integer
Read-write
Indicates if the UDP broadcast forwarding feature is enabled:
• disabled(0) – When this object is set to disabled, entries in the UDP Broadcast Forwarding Port Table are deleted.
• enabled(1) – When UDP broadcast forwarding is enabled, default entries are added to the UDP broadcast forwarding port table.
Default: enabled(1)
Name, OID, and Syntax Access Description
snRtUdpBcastFwdPortTable
fdry.1.2.2.9.2.1
None The UDP Broadcast Forwarding Port Table
snRtUdpBcastFwdPortEntry
fdry.1.2.2.9.2.1.1
None An entry in the UDP Broadcast Forwarding Port Table.
snRtUdpBcastFwdPortIndex
fdry.1.2.2.9.2.1.1.1
Syntax: Integer
Read only The index of an entry in the UDP Broadcast Forwarding Port Tables. There can be up to 20 entries.
April 2008 © 2008 Foundry Networks, Inc. 18-13
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UDP Helper TableA UDP Helper Table contains addresses that are used to forward a client’s broadcast request for a UDP application when the client and server are on different networks. There can be up to four helper addresses on each interface. Helper addresses can be configured on an Ethernet port or a virtual interface.
snRtUdpBcastFwdPortNumber
fdry.1.2.2.9.2.1.1.2
Syntax: Integer
Read-write
Shows the port number for which the UDP broadcast forwarding feature has been enabled. Possible port numbers are:
• port(68) – bootpc
• port(67) – bootps
• port(9) – discard
• port(53) – dns
• port(90) – dnsix
• port(7) – echo
• port(434) – mobile-ip
• port(138) – netbios-dgm
• port(137) – netbios-ns
• port(123) – ntp
• port(65) – tacacs
• port(517) – talk
• port(37) – time
• port(69) – tftp
Other application port numbers can also be specified.
snRtUdpBcastFwdPortRowStatus
fdry.1.2.2.9.2.1.1.3
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snRtUdpHelperTable
fdry.1.2.2.9.3.1
None UDP Helper Table
Name, OID, and Syntax Access Description
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Global Router and IP
Trace Route GroupThis group uses the following method to detect routes used to reach a destination address:
snRtUdpHelperEntry
fdry.1.2.2.9.3.1.1
None An entry of the UDP Helper Table.
snRtUdpHelperPortIndex
fdry.1.2.2.9.3.1.1.1
Syntax: PortIndex
Read only Indicates the port index for a UDP Helper address.
• For FastIron or NetIron products, the value of this object is from 1 to 42
• For BigIron products, the value of this object is an encoded number, where:
Bit 0 to bit 7 – Port number.
Bit 8 to bit 11 – Slot number.
Beginning with software release 07.2.00, the following values have been added:
Bit 16, set to 1 – Virtual router interface.
Bit 17, set to 1 – Loopback interface.
snRtUdpHelperIndex
fdry.1.2.2.9.3.1.1.2
Syntax: Integer
Read only An index in the UDP Helper Table for this entry.
Valid values: 1– 4.
snRtUdpHelperAddrTypr
fdry.1.2.2.9.3.1.1.3
Syntax: Integer
Read-write
Indicates if the address is unicast or subnet broadcast address.
Valid values:
• unicast(1)
• broadcast(2)
snRtUdpHelperAddr
fdry.1.2.2.9.3.1.1.4
Syntax: IpAddress
Read-write
Shows the IP address of the UDP helper. UDP packets will be forwarded to this address. It can be a helper address or a subnet broadcast address, but it cannot be 255.255.255.255 or 0.0.0.0.
snRtUdpHelperRowStatus
fdry.1.2.2.9.3.1.1.5
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 18-15
Foundry Management Information Base Reference
1. The originating Layer 3 Switch sends a probe packet (a UDP packet) to the destination address with a time-to-Live (TTL) value of 1.
2. The first Layer 3 Switch that receives this packet decrements the TTL, then drops the packet and returns a ICMP packet to the originator.
3. The originating Layer 3 Switch records the route in the “snRtIpTraceRouteResultTable” .
4. The originating Layer 3 Switch sends a probe packet (a UDP packet) to the destination address with a TTL value of 2.
5. The second Layer 3 Switch that receives this packet decrements the TTL, then drops the packet and returns an ICMP packet to the originator.
6. The originating Layer 3 Switch records the route in “snRtIpTraceRouteResultTable” .
This procedure is repeated until the destination is reached or the maximum TTL is reached.
General Trace Route GroupThe following objects define the trace route probe packet.
Name, OID, and Syntax Access Description
snRtIpTraceRouteTargetAddr
fdry.1.2.2.10.1.1
Syntax: IpAddress
Read-write
Shows the target IP address of the trace route.
snRtIpTraceRouteMinTtl
fdry.1.2.2.10.1.2
Syntax: Integer
Read-write
Indicates the minimum TTL value carried in the first probe packet.
Valid values: 1 – 255 minutes
Default: 1 minute
snRtIpTraceRouteMaxTtl
fdry.1.2.2.10.1.3
Syntax: Integer
Read-write
Indicates the maximum TTL value carried in the last probe packet.
Valid values: 1 – 255 minutes.
Default: 30 minutes
snRtIpTraceRouteTimeOut
fdry.1.2.2.10.1.4
Syntax: Integer
Read-write
Indicates the number of seconds the Layer 3 Switch waits for a response from the probe packet (i.e. the ICMP packet) before timing out.
Valid values: 1 – 120 seconds.
Default: 2 seconds
18-16 © 2008 Foundry Networks, Inc. April 2008
Global Router and IP
Trace Route Result TableThis table contains the routes and the target addresses used in the trace route operation to reach the destination address.
snRtIpTraceRouteControl
fdry.1.2.2.10.1.5
Syntax: Integer
Read-write
Indicates the progress of the trace route:
• start(1) – snRtIpTraceRouteDestAddr must have been initialized before start(1) can be written.
• abort(2) – Stops the current trace route operation.
• success(3) – The destination address is reached.
• failure(4) – Either the destination address is not reach, trace route times out, or the ending TTL is reached before the operation is completed.
• inProgress(5) – Trace route operation has started.
Only "start" and "abort" are writable values; whereas, "success", "failure" and "inProgress" are read only (or returned) values.
The “snRtIpTraceRouteResultTable” on page 18-17 contains the routes and target addresses.
Name, OID, and Syntax Access Description
snRtIpTraceRouteResultTable
fdry.1.2.2.10.2.1
None Trace Route Results Table.
snRtIpTraceRouteResultEntry
fdry.1.2.2.10.2.1.1
None An entry in the Trace Route Results Table.
snRtIpTraceRouteResultIndex
fdry.1.2.2.10.2.1.1.1
Syntax: Integer
Read only The index for an entry in the Trace Route Results Table.
snRtIpTraceRouteResultAddr
fdry.1.2.2.10.2.1.1.2
Syntax: IpAddress
Read only Indicates the IP address of the Layer 3 Switch or the target IP address of the Layer 3 Switch.
snRtIpTraceRouteResultRoundTripTime1
fdry.1.2.2.10.2.1.1.3
Syntax: Time ticks
Read only Shows the round trip time between the transmission of the first probe packet and the received response of the ICMP packet.
snRtIpTraceRouteResultRoundTripTime2
fdry.1.2.2.10.2.1.1.4
Syntax: Time ticks
Read only Shows the round trip time between the transmission of the second probe and the received response of the ICMP packet.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 18-17
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IP Forwarding Cache TableThe IP forwarding cache provides a fast-path mechanism for forwarding IP packets. The cache contains entries for IP destinations.
Name, OID, and Syntax Access Description
snRtIpFwdCacheTable
fdry.1.2.2.11
None IP Forwarding Cache Table.
snRtIpFwdCacheEntry
fdry.1.2.2.11.1
None An entry in the IP Forwarding Cache Table.
snRtIpFwdCacheIndex
fdry.1.2.2.11.1.1
Syntax: Integer
Read only An index in the IP Forwarding Cache Table for this entry.
snRtIpFwdCacheIp
fdry.1.2.2.11.1.2
Syntax: IpAddress
Read only Shows the IP address of a forwarding cache station.
snRtIpFwdCacheMac
fdry.1.2.2.11.1.3
Syntax: Octet string
Read only Shows the MAC address of a forwarding cache station. This object has six octets.
snRtIpFwdCacheNextHopIp
fdry.1.2.2.11.1.4
Syntax: IpAddress
Read only Indicates the IP address of the Layer 3 Switch for the next hop.
snRtIpFwdCacheOutgoingPort
fdry.1.2.2.11.1.5
Syntax: Integer
Read only Specifies the outgoing port to which packets will be forwarded.
Valid values: 0 – 3900. A value of zero indicates that there is no outgoing port for this entry. Non-zero value has the following meaning:
• Bit 0 to bit 7 – Port number.
• Bit 8 to bit 11 – Slot number.
For virtual Layer 3 Switch interface, slot number is 15. Port number is the virtual Layer 3 Switch port number, which is a value from 1 – 60.
snRtIpFwdCacheType
fdry.1.2.2.11.1.6
Syntax: Integer
Read only Indicates the type of entry this is:
• dynamic(1)
• permanent(2)
18-18 © 2008 Foundry Networks, Inc. April 2008
Global Router and IP
IP Prefix List TableAn IP prefix list specifies a list of networks. When you apply an IP prefix list to a neighbor, the Layer 3 Switch sends or receives only a route whose destination is in the IP prefix list. You can configure up to 100 prefix lists. The software interprets the prefix lists in sequential order, beginning with the lowest sequence number.
snRtIpFwdCacheAction
fdry.1.2.2.11.1.7
Syntax: Integer
Read only Indicates the action taken with this entry:
• other(1)
• forward(2)
• forUs(3)
• waitForArp(4)
• complexFilter(5)
• icmpDeny(6)
• dropPacket(7)
snRtIpFwdCacheFragCheck
fdry.1.2.2.11.1.8
Syntax: Integer
Read only Indicates if fragmentation-needed is enabled:
• disabled(0)
• enabled(1)
NOTE: Foundry devices cannot forward the packet without fragmenting it.
snRtIpFwdCacheSnapHdr
fdry.1.2.2.11.1.9
Syntax: Integer
Read only Indicates if Ethernet SNAP (also called IEEE 802.3) encapsulation is enabled:
• disabled(0)
• enabled(1)
snRtIpFwdCacheVLanId
fdry.1.2.2.11.1.10
Syntax: Integer
Read only Shows the VLAN ID of an IP Forwarding Cache Table entry. A value of zero indicates that no VLAN is associated with this entry.
snRtIpFwdCacheOutgoingIf
fdry.1.2.2.11.1.11
Syntax: Integer
Read only Shows the outgoing interface that will be used to forward packets. An value of zero indicates that no outgoing interface is associated with this entry.
Name, OID, and Syntax Access Description
snIpPrefixListTable
fdry.1.2.2.14
None IP Prefix List Table.
snIpPrefixListEntry
fdry.1.2.2.14.1
None An entry in the IP Prefix List Table.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 18-19
Foundry Management Information Base Reference
snIpPrefixListName
fdry.1.2.2.14.1.1
Syntax: Octet string
Read only Specifies the name of the prefix list. This name can be used when applying the prefix list to a neighbor. It appears in an octet string; each character of the name is represented by one octet. There can be up to 32 octets for this name.
snIpPrefixListSequence
fdry.1.2.2.14.1.2
Syntax: Integer
Read only Shows the sequence of an entry in the table. There can be up to 100 prefix list entries. If a sequence number is not specified, then entries are numbered in increments of 5, beginning with prefix list entry 5. Incoming or outgoing routes are matched against the entries in the IP Prefix List in numerical order, beginning with the lowest sequence number.
snIpPrefixListDesc
fdry.1.2.2.14.1.3
Syntax: Octet string
Read-write
Specifies the description of the prefix. This description is in an octet string; each character in the description is represented by one octet. There can be up to 80 octets in the description.
snIpPrefixListAction
fdry.1.2.2.14.1.4
Syntax: Integer
Read-write
Indicates what to do with the route if it matches this entry:
• deny(0)
• permit(1)
snIpPrefixListAddr
fdry.1.2.2.14.1.5
Syntax: IpAddress
Read-write
Shows the IP address of the prefix.
snIpPrefixListMask
fdry.1.2.2.14.1.6
Syntax: IpAddress
Read-write
Shows the number of bits in the prefix network mask.
snIpPrefixListGeValue
fdry.1.2.2.14.1.7
Syntax: Integer
Read-write
Specifies that the prefix is greater than the value of the “snIpPrefixListMask” object.
Valid values: 0 – 32
snIpPrefixListLeValue
fdry.1.2.2.14.1.8
Syntax: Integer
Read-write
Specifies that the prefix is less than the value of the “snIpPrefixListMask” object.
Valid values: 0 – 32
NOTE: You can specify a range of length for prefixes that are more specific than the values for the “snIpPrefixListAddr” and “snIpPrefixListMask” objects. The <ge-value> or <le-value> you specify must meet the following condition:
length < ge-value <= le-value <= 32
If a value for “snIpPrefixListGeValue” is specified, then the mask-length range is from the value of “snIpPrefixListGeValue” to 32.
If a value for “snIpPrefixListLeValue” is specified, then mask-length range is from length to the value of “snIpPrefixListLeValue” .
If no value is specified for either the less than or greater than objects, then routes must exactly match the prefixes on the list.
Name, OID, and Syntax Access Description
18-20 © 2008 Foundry Networks, Inc. April 2008
Global Router and IP
snIpPrefixListRowStatus
fdry.1.2.2.14.1.9
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snIpPrefixListLength
fdry.1.2.2.14.1.10
Syntax: Integer
Read-write
The length of the IP prefix’s mask.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 18-21
Foundry Management Information Base Reference
IP AS-Path Access List TableThe IP AS-Path Access List Table (snIpAsPathAccessListTable) has been deprecated in IronWare software release 07.5.00 and is no longer supported in Foundry devices.
IP AS-Path Access List String Table AS-PATH is a list of the other ASs through which a route passes. BGP4 routers can use the AS-path to detect and eliminate routing loops. The IP AS-Path Access List Table contains filters that are used to deny or permit updates received from BGP4 neighbors.
Name, OID, and Syntax Access Description
snIpAsPathAccessListStringTable
fdry.1.2.2.16
None IP As-Path Access List Table.
snIpAsPathAccessListStringEntry
fdry.1.2.2.16.1
None An entry in the IP As-Path Access List Table.
snIpAsPathAccessListStringName
fdry.1.2.2.16.1.1
Syntax: Display string
Read only An index for the entry in the table.
snIpAsPathAccessListStringSequence
fdry.1.2.2.16.1.2
Syntax: Integer
Read only The sequence index for this entry in this table.
snIpAsPathAccessListStringAction
fdry.1.2.2.16.1.3
Syntax: Integer
Read-write Determines what to do with the packet if its address matches this entry:
• deny(0)
• permit(1)
snIpAsPathAccessListStringRegExpression
fdry.1.2.2.16.1.4
Syntax: Integer
Read-write Specifies the AS path information that will be permitted or denied. This object contains a regular expression. Each character of the regular expression string is represented by one octet.
18-22 © 2008 Foundry Networks, Inc. April 2008
Global Router and IP
snIpAsPathAccessListStringRowStatus
fdry.1.2.2.16.1.5
Syntax: Integer
Read-write Controls the management of the table rows. The values that can be written are
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a
"bad value" error. Deleted rows are deleted immediately. The
following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 18-23
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18-24 © 2008 Foundry Networks, Inc. April 2008
Chapter 19OSPF
This chapter presents the objects for the Open Shortest Path First (OSPF) protocol. OSPF objects are available in all Foundry devices, except ServerIron.
Beginning with the NetIron XMR and NetIron MLX release 03.9.00 and BigIron RX 02.6.00, see “Support for the NetIron XMR, NetIron MLX and BigIron RX” on page 19-35
Objects presented in this chapter are:
• “OSPF General Objects” on page 19-2
• “OSPF Area Table” on page 19-4
• “Area Range Table” on page 19-5
• “OSPF Interface Configuration Tables” on page 19-6
• “OSPF Virtual Interface Table” on page 19-13
• “OSPF Redistribution of Routes Table” on page 19-16
• “OSPF Neighbor Table” on page 19-18
• “OSPF Virtual Neighbor Table” on page 19-21
• “OSPF Link-State Database” on page 19-23
• “OSPF Link State Database, External” on page 19-25
• “OSPF Area Status Table” on page 19-26
• “OSPF Interface Status Table” on page 19-27
• “OSPF Virtual Interface Status Table” on page 19-31
• “OSPF Routing Information Table” on page 19-34
For objects relating to OSPF traps, refer to the chapter “Traps and Objects to Enable Traps” on page 30-1.
Refer to the Foundry Enterprise Configuration and Management Guide for details on the features discussed in this chapter.
NOTE: Beginning with software release 07.6.03, Foundry devices support RFC 1850 instead of the objects in this chapter. Also, BigIron MG8, NetIron 40G, and FastIron Edge Switch support RFC 1850.
April 2008 © 2008 Foundry Networks, Inc. 19-1
Foundry Management Information Base Reference
OSPF General ObjectsThese objects provide information about the OSPF Process. They apply globally to the routers.
Name, OID, and Syntax Access Description
snOspfRouterId
fdry.1.2.4.1.1
Syntax: RouterID
Read-write
Shows the IP address of the Autonomous System Boundary Router. Conventionally, this ID defaults to IP address of one of the routers to ensure uniqueness in the network. This object contains a 32-bit integer.
Reference: RFC 1583 “OSPF Version 2”, section C.1 Global parameters
snOspfAdminStat
fdry.1.2.4.1.2
Syntax: Integer
Read-write
Specifies the state of the OSPF in the router:
• disabled(0) – OSPF is disabled on all interfaces
• enabled(1) – OSPF is active on at least one interface
snOspfASBdrRtrStatus
fdry.1.2.4.1.3
Syntax: TruthVal
Read-write
Indicates if this router is an Autonomous System Boundary Router:
• false(0)
• true(1)
Reference: RFC 1583 “OSPF Version 2”, Section 3.3 Classification of routers
snOspfRedisMode
fdry.1.2.4.1.4
Syntax: Integer
Read-write
Specifies if OSPF redistribution has been enabled on this router:
• disabled(0) – OSPF redistribution is disabled
• enabled(1) – OSPF redistribution is active
snOspfDefaultOspfMetricValue
fdry.1.2.4.1.5
Syntax: Integer
Read-write
Shows the cost of using a default OSPF Metric value on this route.
Valid values: 1 – 65535
snOspfExternLSACount
fdry.1.2.4.1.6
Syntax: Counter
Read only The number of external link-state advertisements in the link-state database.
Reference: RFC 1583 “OSPF Version 2”, section A.4.5 AS external link advertisements (LS type 5)
snOspfExternLSACksumSum
fdry.1.2.4.1.7
Syntax: Integer
Read only Indicates the 32-bit unsigned sum of the LS checksums of the external link-state advertisements contained in the link-state database. This sum can be used to determine if there has been a change in a router’s link-state database and to compare the link-state database of two routers.
snOspfOriginateNewLSAs
fdry.1.2.4.1.8
Syntax: Counter
Read only Shows the number of new link-state advertisements that have been originated by the router. This number increments each time the router originates a new LSA.
19-2 © 2008 Foundry Networks, Inc. April 2008
OSPF
snOspfRxNewLSAs
fdry.1.2.4.1.9
Syntax: Counter
Read only Shows the number of link-state advertisements received by the router. This number does not include newer instantiations of self-originated link-state advertisements.
snOspfOspfRedisMetricType
fdry.1.2.4.1.10
Syntax: Integer
Read-write
Indicates the type of route:
• type1(1) – External Type 1 (comparable value) the intra-area and inter-area routes. It is an OSPF metric plus the external Metric.
• type2(2) – External Type 2 (non-comparable value) routes, it is the external metric.
snOspfExtLsdbLimit
fdry.1.2.4.1.11
Syntax: Integer
Read-write
Provides compliance with RFC 1765 in the handling of OSPF external link-state database (LSDB) overflow
Specifies the maximum number of non-default AS-external-LSAs entries that can be stored in the link-state database. When the number of non-default AS-external-LSAs in a router’s link-state database reaches ospfExtLsdbLimit, the router enters Overflow State.The router never holds more than ospfExtLsdbLimit non-default AS-external-LSAs in its database. OspfExtLsdbLimit MUST be set identically in all routers attached to the OSPF backbone and/or any regular OSPF area. (i.e., OSPF stub areas and NSSAs are excluded).
Valid values: 1 – 2000. If the value is -1, then there is no limit.
snOspfExitOverflowInterval
fdry.1.2.4.1.12
Syntax: Integer
Read-write
Specifies the number of seconds that a router will attempt to leave the overflow state once it is in that state. This value allows the router to again originate non-default AS-external-LSAs. If this object is set to 0, the router will not leave the overflow state until it is restarted.
Valid values: 0 – 86400 seconds.
snOspfRfc1583Compatibility
fdry.1.2.4.1.13
Syntax: Integer
Read-write
Specifies if the OSPF route is compatible with RFC1583 or RFC2178:
• disabled(0) – Compatible with RFC 2178.
• enabled(1) – Compatible with RFC 1583.
snOspfRouterIdFormat
fdry.1.2.4.1.14
Syntax: Integer
Read-write
Specifies the format of how Router ID will be entered in the “snOspfRouterId” object:
• integer(0) – Integer.
• ipAddress(1) – IP address.
snOspfDistance
fdry.1.2.4.1.15
Syntax: Integer
Read-write
Determines the OSPF administrative distance for intra-area routes.
Default: 110
Valid values: 1 – 255
Name, OID, and Syntax Access Description
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Foundry Management Information Base Reference
OSPF Area TableThe OSPF Area Data Structure contains information that describes the various OSPF areas. The interfaces and virtual links are configured as part of these areas. Area 0.0.0.0, by definition, is the Backbone Area.
Reference: RFC 1583 “OSPF Version 2”, section 6 The Area Data Structure
snOspfDistanceIntra
fdry.1.2.4.1.16
Read-write
Determines the OSPF administrative distance for intra-area routes.
Default: 110
Valid values: 1 – 255
snOspfDistanceInter
fdry.1.2.4.1.17
Syntax: Integer
Read-write
Determines the OSPF administrative distance for inter-area routes.
Default: 110
Valid values: 1 – 255
snOspfDistanceExternal
fdry.1.2.4.1.18
Syntax: Integer
Read-write
Determines the OSPF administrative distance for external routes.
Valid values: 1 – 255
Default: 110
Name, OID, and Syntax Access Description
snOspfAreaTable
fdry.1.2.4.2.1
None The OSPF Area Table
snOspfAreaEntry
fdry.1.2.4.2.1.1
None An entry in the OSPF Area Table
snOspfAreaId
fdry.1.2.4.2.1.1.1
Syntax: AreaID
Read only Specifies the address of the area. This address identifies the router, independent of its IP address. Area ID 0.0.0.0 is used for the OSPF backbone. The format used for this ID is specified by the “snOspfAreaIdFormat” object.
Reference: RFC 1583 “OSPF Version 2”, section C.2 Area parameters
Name, OID, and Syntax Access Description
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OSPF
Area Range TableThe area range allows you to assign an aggregate value to a range of IP addresses. This aggregate value becomes the address that is advertised instead all of the individual addresses it represents being advertised. The Area Range table contains the aggregate value of the ranges of IP addresses that are configured to be propagated from an OSPF area.
snOspfImportASExtern
fdry.1.2.4.2.1.1.2
Syntax: Integer
Read-write
Indicates the type of OSPF area that this router supports:
• 0 – Stub area. OSPF routers within a stub area cannot send or receive external LSAs. In addition, OSPF routers in a stub area must use a default route to the area’s Area Border Router (ABR) or Autonomous System Boundary Router (ASBR) to send traffic out of the area.
• 1 – Normal area. OSPF routers within a normal area can send and receive external link-state advertisements
• 2 – NSSA area ASBR of an NSSA can import external route information into the area.
Reference: RFC 1583 “OSPF Version 2”, section C.2 Area parameters
snOspfStubMetric
fdry.1.2.4.2.1.1.3
Syntax: BigMetric
Read-write
The metric value applied at the default type of service(ospfMetric). By default, this equals the least metric at the type of service among the interfaces to other areas. This object exist only if the value of snOspfAreaSummary is snOspfAreaSummary(2); Otherwise, an SNMP_GET/GET_NEXT attempt of this Object will return NO_SUCH_NAME.
snOspfAreaRowStatus
fdry.1.2.4.2.1.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snOspfAreaIdFormat
fdry.1.2.4.2.1.1.5
Syntax: Integer
Read-write
Specifies the format of Area ID entered in the “snOspfIfAreaId” object:
• integer(0) – Integer
• ipAddress(1) – IP address
Name, OID, and Syntax Access Description
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Reference: RFC 1583 “OSPF Version 2”, section C.2 Area parameters.
OSPF Interface Configuration TablesThe OSPF Interface Table augments the ifTable with OSPF specific information.
References:
• Reference: RFC 1583 “OSPF Version 2”, section C.3 Router interface parameters.
• Reference: RFC 1583 “OSPF Version 2”, section E Authentication.
Name, OID, and Syntax Access Description
snOspfAreaRangeTable
fdry.1.2.4.3.1
None The Area Range Table.
snOspfAreaRangeEntry
fdry.1.2.4.3.1.1
None An entry in the Area Range Table.
snOspfAreaRangeAreaID
fdry.1.2.4.3.1.1.1
Syntax: AreaID
Read only Specifies the ID of the area where the address range can be found. The object “snOspfAreaRangeAreaIdFormat” determines the format of this object.
snOspfAreaRangeNet
fdry.1.2.4.3.1.1.2
Syntax: IpAddress
Read only Specifies the IP Address of the net or subnet indicated by the range.
snOspfAreaRangeMask
fdry.1.2.4.3.1.1.3
Syntax: IpAddress
Read-write
Specifies the subnet mask that pertains to the net or subnet.
snOspfAreaRangeRowStatus
fdry.1.2.4.3.1.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snOspfAreaRangeAreaIdFormat
fdry.1.2.4.3.1.1.5
Syntax: Integer
Read only Specifies the format of how Area ID will be entered in the “snOspfAreaRangeAreaID” object:
• integer(0) – Integer.
• ipAddress(1) – IP Address.
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OSPF
OSPF Interface Configuration Table
Name, OID, and Syntax Access Description
snOspfIfTable
fdry.1.2.4.4.1
None The OSPF Interface Configuration Table.
snOspfIfEntry
fdry.1.2.4.4.1.1
None An entry in the OSPF Interface Configuration Table.
snOspfIfPort
fdry.1.2.4.4.1.1.1
Syntax: Integer
Read only The physical router port of this OSPF interface.
snOspfIfAreaId
fdry.1.2.4.4.1.1.2
Syntax: AreaID
Read-write
Specifies the address of the area in a 32-bit integer. This address uniquely identifies the area to which the interface connects. Area ID 0.0.0.0 is used for the OSPF backbone.
Default: ’00000000’h, which equals to 0.0.0.0
snOspfIfAdminStat
fdry.1.2.4.4.1.1.3
Syntax: Integer
Read-write
Indicates if neighbor relationships may be formed on this interface:
• disabled(0) – The interface is external to OSPF
• enabled(1) – Neighbor relationships may be formed on the interface, which will be advertised as an internal route to an area.
Default: enabled(1)
snOspfIfRtrPriority
fdry.1.2.4.4.1.1.4
Syntax: DesignatedRouterPriority
Read-write
Specifies the priority of this interface. This object is used in the designated router election algorithm for multi-access networks.
Valid values: 0 – 255. A value of 0 signifies that the router is not eligible to become the designated router on this particular network.
If two or more routers have the same priority value, then the router with the highest router ID becomes the designated router. The router with the next highest router ID becomes the backup designated router.
snOspfIfTransitDelay
fdry.1.2.4.4.1.1.5
Syntax: UpToMaxAge
Read-write
Shows the time it takes to transmit link-state update packets on this interface.
Valid values: 0 – 3600 seconds
Default: 1 second
snOspfIfRetransInterval
fdry.1.2.4.4.1.1.6
Syntax: UpToMaxAge
Read-write
Specifies the number of seconds between link-state advertisement retransmissions, for adjacencies belonging to this interface. This value is also used when retransmitting database description and link-state request packets. Values can be from 0 – 3600 seconds.
Default: 5 seconds
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snOspfIfHelloInterval
fdry.1.2.4.4.1.1.7
Syntax: HelloRange
Read-write
Specifies the number of seconds that router waits before it sends the next Hello packet on this interface. This value must be the same for all routers attached to a common network. Values can be from 1 – 65535 seconds (up to ‘FFFF’h).
Valid values: 1 – 65535 seconds
Default: 10 seconds
snOspfIfRtrDeadInterval
fdry.1.2.4.4.1.1.8
Syntax: PositiveInteger
Read-write
Specifies the number of seconds that neighbor routers wait for a router’s Hello packets before they declare that the router is down. This should be a multiple of the Hello interval. This value must be the same for all routers attached to a common network.
Valid values: 1 – 2147483647 seconds
Default: 40 seconds
snOspfIfAuthType
fdry.1.2.4.4.1.1.9
Syntax: Integer
Read-write
Specifies the authentication type for an interface.
Valid values:
• none(0)
• simplePassword(1)
• md5(2)
• reserved for specification by IANA(> 2)
Additional authentication types may be assigned locally on a per interface basis, up to 255.
Default: none(0)
snOspfIfAuthKey
fdry.1.2.4.4.1.1.10
Syntax: Octet string
Read-write
Indicates the authentication key.
• If the authentication type selected is simple password, then this object requires an alphanumeric password. If the value is shorter than eight octets, the agent will left-adjust and zero-fill the key to equal eight octets.
The simple password setting takes effect immediately. All OSPF packets transmitted on the interface contain this password. Any OSPF packet received on the interface is checked for this password. If the password is not present, then the packet is dropped. The password can be up to eight characters long.
• If the authentication type is MD5, then a key ID and an MD5 key are required. The key ID is a number from 1 to 255 and identifies the MD5 key that is being used. The MD5 key can be up to sixteen alphanumeric characters long.
Default: ’0000000000000000’h, which is equal to 0.0.0.0.0.0.0.0
When read, “snOspfIfAuthKey” always returns a blank.
Reference: RFC 1583 “OSPF Version 2”, section 9, The Interface Data Structure
Name, OID, and Syntax Access Description
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OSPF
snOspfIfMetricValue
fdry.1.2.4.4.1.1.11
Syntax: Integer
Read-write
Specifies the cost of using this type of service (TOS) on this interface. The default value of the TOS 0 Metric is equal to 10^8 divided by the ifSpeed.
snOspfIfRowStatus
fdry.1.2.4.4.1.1.12
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snOspfIfMd5AuthKeyId
fdry.1.2.4.4.1.1.13
Syntax: Integer
Read-write
Specifies the ID of the MD5 authentication key. If the object “snOspfVirtIfAuthType” is set to MD5, this object identifies the algorithm and secret key used to create the message digest appended to the OSPF packet. Key identifiers are unique per-interface (or equivalently, per-subnet).
The value of this object must be a number from 1 – 255.
snOspfIfMd5AuthKey
fdry.1.2.4.4.1.1.14
Syntax: Octet string
Read-write
Specifies the MD5 authentication key. If the object “snOspfVirtIfAuthType” is set to MD5, the value of this object is encrypted and included in each OSPF packet transmitted.
The agent will left-adjust and zero-fill the key to equal 16 octets.
When read, snOspfIfMd5AuthKey always returns a blank.
snOspfIfMd5ActivationWaitTime
fdry.1.2.4.4.1.1.15
Syntax: Integer
Read-write
Determines when a newly configured MD5 authentication key is valid. This parameter provides a graceful transition from one MD5 key to another without disturbing the network. All new packets transmitted after the key activation wait time interval use the newly configured MD5 key. OSPF packets that contain the old MD5 key are accepted for up to five minutes after the new MD5 key is in operation. The range for the key activation wait time is from 0 – 14400 seconds.
Default: 300 seconds
snOspfIfAreaIdFormat
fdry.1.2.4.4.1.1.16
Syntax: Integer
Read only Specifies the format of how Area ID will be entered in the “snOspfIfAreaId” object
• integer(0) – Integer
• ipAddress(1) – IP Address
Name, OID, and Syntax Access Description
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OSPF Interface 2 Configuration Table
snOspfIfPassiveMode
fdry.1.2.4.4.1.1.17
Syntax: Integer
Read-write
Indicates if passive mode is enabled on this interface:
• disabled(0)
• enabled(1)
snOspfIfDatabaseFilterAllOut
fdry.1.2.4.4.1.1.18
Syntax: Integer
Read-write
Determines if the filtering of outgoing OSPF LSA on this interface is enabled:
• disabled(0) – Filtering is disabled
• enabled(1) – Filtering is enabled
snOspfIfMtuIgnore
fdry.1.2.4.4.1.1.19
Syntax: Integer
Read-write
Determines if the MTU detection mode of this interface is enabled:
• disabled(0) – MTU detection mode is disabled
• enabled(1) – MTU detection mode is enabled
snOspfIfNetworkP2mp
fdry.1.2.4.4.1.1.20
Syntax: Integer
Read-write
This object is not supported in Foundry devices. Determines if the P2MP mode of this interface is enabled:
• disabled(0) – P2MP mode is disabled
enabled(1) – P2MP mode is enabled
Name, OID, and Syntax Access Description
snOspfIf2Table
fdry.1.2.4.4.2
None Determines if the P2MP mode of this interface is enabled:
• disabled(0) – P2MP mode is disabled
• enabled(1) – P2MP mode is enabled
snOspfIf2Entry
fdry.1.2.4.4.2.1
None An entry in the OSPF Interface 2 Configuration Table.
snOspfIf2Port
fdry.1.2.4.4.2.1.1
Syntax: Integer
Read only The physical router port of this OSPF interface.
snOspfIf2AreaId
fdry.1.2.4.4.2.1.2
Syntax: AreaID
Read-write Specifies the address of the area in a 32-bit integer. This address uniquely identifies the area to which the interface connects. Area ID 0.0.0.0 is used for the OSPF backbone.
Default: ’00000000’h, which equals to 0.0.0.0
snOspfIf2AdminStat
fdry.1.2.4.4.2.1.3
Syntax: Integer
Read-write Indicates if neighbor relationships may be formed on this interface:
• disabled(0) – The interface is external to OSPF
• enabled(1) – Neighbor relationships may be formed on the interface, which will be advertised as an internal route to an area.
Default: enabled(1)
Name, OID, and Syntax Access Description
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OSPF
snOspfIf2RtrPriority
fdry.1.2.4.4.2.1.4
Syntax: DesignatedRouterPriority
Read-write Specifies the priority of this interface. This object is used in the designated router election algorithm for multi-access networks.
Valid values: 0 – 255. A value of 0 signifies that the router is not eligible to become the designated router on this particular network.
If two or more routers have the same priority value, then the router with the highest router ID becomes the designated router. The router with the next highest router ID becomes the backup designated router.
snOspfIf2TransitDelay
fdry.1.2.4.4.2.1.5
Syntax: UpToMaxAge
Read-write Shows the time it takes to transmit link-state update packets on this interface.
Valid values: 0 – 3600 seconds
Default: 1 second
snOspfIf2RetransInterval
fdry.1.2.4.4.2.1.6
Syntax: UpToMaxAge
Read-write Specifies the number of seconds between link-state advertisement retransmissions, for adjacencies belonging to this interface. This value is also used when retransmitting database description and link-state request packets.
Valid values: 0 – 3600 seconds
Default: 5 seconds
snOspfIf2HelloInterval
fdry.1.2.4.4.2.1.7
Syntax: HelloRange
Read-write Specifies the number of seconds that router waits before it sends the next Hello packet on this interface. This value must be the same for all routers attached to a common network. Values can be from 1 – 65535 seconds (up to ‘FFFF’h).
Valid values: 1 – 65535 seconds
Default: 10 seconds
snOspfIf2RtrDeadInterval
fdry.1.2.4.4.2.1.8
Syntax: PositiveInteger
Read-write Specifies the number of seconds that neighbor routers wait for a router’s Hello packets before they declare that the router is down. This should be a multiple of the Hello interval. This value must be the same for all routers attached to a common network.
Valid values: 1 – 2147483647 seconds
Default: 40 seconds
snOspfIf2AuthType
fdry.1.2.4.4.2.1.9
Syntax: Integer
Read-write Specifies the authentication type for an interface.
Valid values::
• none(0)
• simplePassword(1)
• md5(2)
• reserved for specification by IANA(> 2)
Additional authentication types may be assigned locally on a per interface basis. The value of this object can be up – 255.
Default: none(0)
Name, OID, and Syntax Access Description
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snOspfIf2AuthKey
fdry.1.2.4.4.2.1.10
Syntax: Octet string
Read-write Indicates the authentication key.
• If the authentication type selected is simple password, then this object requires an alphanumeric password. If the value is shorter than eight octets, the agent will left-adjust and zero-fill the key to equal eight octets.
The simple password setting takes effect immediately. All OSPF packets transmitted on the interface contain this password. Any OSPF packet received on the interface is checked for this password. If the password is not present, then the packet is dropped. The password can be up to eight characters long.
• If the authentication type is MD5, then a key ID and an MD5 key are required. The key ID is a number from 1 to 255 and identifies the MD5 key that is being used. The MD5 key can be up to sixteen alphanumeric characters long.
Valid values: Up to eight octets.
Default: ’0000000000000000’h which is equal to 0.0.0.0.0.0.0.0
When read, “snOspfIf2AuthKey” always returns a blank.
Reference: RFC 1583 “OSPF Version 2”, section 9 The Interface Data Structure
snOspfIf2MetricValue
fdry.1.2.4.4.2.1.11
Syntax: Integer
Read-write Specifies the cost of using this type of service (TOS) on this interface. The default value of the TOS 0 Metric is equal to 10^8 divided by the ifSpeed.
Valid values: 0 – 65535
snOspfIf2RowStatus
fdry.1.2.4.4.2.1.12
Syntax: Integer
Read-write Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snOspfIf2Md5AuthKeyId
fdry.1.2.4.4.2.1.13
Syntax: Integer
Read-write Specifies the ID of the MD5 authentication key. If the object “snOspfVirtIfAuthType” is set to MD5, this object identifies the algorithm and secret key used to create the message digest appended to the OSPF packet. Key identifiers are unique per interface (or equivalently, per subnet).
The value of this object must be a number from 1 – 255.
Name, OID, and Syntax Access Description
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OSPF
OSPF Virtual Interface TableThe Virtual Interface Table describes the virtual links that the OSPF process is configured to carry.
snOspfIf2Md5AuthKey
fdry.1.2.4.4.2.1.14
Syntax: Octet string
Read-write Specifies the MD5 authentication key. If the object “snOspfVirtIfAuthType” is set to MD5, the value of this object is encrypted and included in each OSPF packet transmitted.
The agent will left-adjust and zero-fill the key to equal 16 octets.
When read, “snOspfIf2Md5AuthKey” always returns a blank.
Valid values: Up to 16 octets.
snOspfIf2Md5ActivationWaitTime
fdry.1.2.4.4.2.1.15
Syntax: Integer
Read-write Determines when a newly configured MD5 authentication key is valid. This parameter provides a graceful transition from one MD5 key to another without disturbing the network. All new packets transmitted after the key activation wait time interval use the newly configured MD5 key. OSPF packets that contain the old MD5 key are accepted for up to five minutes after the new MD5 key is in operation. The range for the key activation wait time is from 0 – 14400 seconds.
Default: 300 seconds
snOspfIf2AreaIdFormat
fdry.1.2.4.4.2.1.16
Syntax: Integer
Read only Specifies the format of how Area ID will be entered in the “snOspfIfAreaId” object
• integer(0) – Integer
• ipAddress(1) – IP Address
snOspfIf2PassiveMode
fdry.1.2.4.4.2.1.17
Syntax: Integer
Read-write Indicates if passive mode is enabled on this interface:
• disabled(0)
• enabled(1)
snOspfIf2DatabaseFilterAllOut
fdry.1.2.4.4.2.1.18
Syntax: Integer
Read-write Determines if the filtering of outgoing OSPF LSA on this interface is enabled:
• disabled(0) – Filtering is disabled
• enabled(1) – Filtering is enabled
snOspfIf2MtuIgnore
fdry.1.2.4.4.2.1.19
Syntax: Integer
Read-write Determines if the MTU detection mode of this interface is enabled:
• disabled(0) – MTU detection mode is disabled
• enabled(1) – MTU detection mode is enabled
snOspfIf2NetworkP2mp
fdry.1.2.4.4.2.1.20
Syntax: Integer
Read-write Determines if the P2MP mode of this interface is enabled:
• disabled(0) – P2MP mode is disabled
• enabled(1) – P2MP mode is enabled
snOspfIf2NetworkP2pt
fdry.1.2.4.4.2.1.21
Syntax: Integer
Read-write This object enables and disables OSPF point-to-point mode on an interface:
• disabled(0) – Disables the feature
• enabled(1) – Enables the feature
Name, OID, and Syntax Access Description
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References:
• RFC 1583 “OSPF Version 2”, section C.4 Virtual link parameters
• RFC 1583 “OSPF Version 2”, section 9 The Interface Data Structure
Name, OID, and Syntax Access Description
snOspfVirtIfTable
fdry.1.2.4.5.1
None The OSPF Virtual Interface Table.
snOspfVirtIfEntry
fdry.1.2.4.5.1.1
None An entry in the OSPF Virtual Interface Table.
snOspfVirtIfAreaID
fdry.1.2.4.5.1.1.1
Syntax: AreaID
Read only Specifies the ID of the transit Area that the Virtual link traverses. A value of 0.0.0.0 is not valid.
snOspfVirtIfNeighbor
fdry.1.2.4.5.1.1.2
Syntax: RouterID
Read only Shows the IP address of the ID of the router that is serving as the virtual neighbor.
snOspfVirtIfTransitDelay
fdry.1.2.4.5.1.1.3
Syntax: UpToMaxAge
Read-write
Shows the time it takes to transmit link-state update packets on this interface.
Valid values: 0 – 3600 seconds
Default: 1 second
snOspfVirtIfRetransInterval
fdry.1.2.4.5.1.1.4
Syntax: UpToMaxAge
Read-write
Specifies the interval between the retransmission of link-state advertisements to router adjacencies for this interface.
Valid values: 0 – 3600 seconds
Default: 5 seconds
This value is also used when retransmitting database description and link-state request packets. This value should be greater than the expected roundtrip time.
snOspfVirtIfHelloInterval
fdry.1.2.4.5.1.1.5
Syntax: HelloRange
Read-write
Specifies the number of seconds that router waits before it sends the next Hello packet on this interface. This value must be the same for all routers attached to a common network.
Valid values: from 1 – 65535 seconds
Default: 10 seconds
This value must be the same for the virtual neighbor.
snOspfVirtIfRtrDeadInterval
fdry.1.2.4.5.1.1.6
Syntax: PositiveInteger
Read-write
Specifies the number of seconds that neighbor routers wait for a router’s Hello packets before they declare that the router is down. This should be a multiple of the Hello interval. This value must be the same for the virtual neighbor.
Default: 60 seconds
19-14 © 2008 Foundry Networks, Inc. April 2008
OSPF
snOspfVirtIfAuthType
fdry.1.2.4.5.1.1.7
Syntax: Integer
Read-write
Specifies the authentication type for an interface.
Valid values:
• none(0)
• simplePassword(1)
• md5(2)
• reserved for specification by IANA(> 2)
Additional authentication types may be assigned locally on a per interface basis.
Default: none(0)
snOspfVirtIfAuthKey
fdry.1.2.4.5.1.1.8
Syntax: Octet string
Read-write
Specifies the authentication key:
• If the authentication type selected is simple password, then this object requires an alphanumeric password. If the value is shorter than eight octets, the agent will left-adjust and zero-fill the key to equal eight octets.
The simple password setting takes effect immediately. All OSPF packets transmitted on the interface contain this password. Any OSPF packet received on the interface is checked for this password. If the password is not present, then the packet is dropped. The password can be up to eight characters long.
• If the authentication type is MD5, then a key ID and an MD5 key are required. The key ID is a number from 1 to 255 and identifies the MD5 key that is being used. The MD5 key can be up to sixteen alphanumeric characters long.
When read, “snOspfIfAuthKey” always returns a blank.
Default: 0000000000000000’h, which is 0.0.0.0.0.0.0.0
snOspfVirtIfRowStatus
fdry.1.2.4.5.1.1.9
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 19-15
Foundry Management Information Base Reference
OSPF Redistribution of Routes TableThe OSPF Redistribution of Routes Table contains a list of routes that will be used to decide whether a particular RIP or static route is to be imported into OSPF domain. Routes will be imported if the parameter “Import Route into OSPF” is enabled. They will be imported as external type 2 routes.
snOspfVirtIfMd5AuthKeyId
fdry.1.2.4.5.1.1.10
Syntax: Integer
Read-write
Specifies the ID of the MD5 authentication key. This object identifies the algorithm and secret key used to create the message digest appended to the OSPF packet. Key identifiers are unique per interface.
If the object “snOspfVirtIfAuthType” is set to MD5, the value of this object must be a number from 1 to 255.
snOspfVirtIfMd5AuthKey
fdry.1.2.4.5.1.1.11
Syntax: Octet string
Read-write
Specifies the MD5 authentication key. The value of this object is encrypted and included in each OSPF packet transmitted.
If the value of this object is shorter than 16 octets, the agent will left-adjust and zero-fill the key to equal 16 octets.
When read, snOspfIfMd5AuthKey always returns a blank.
snOspfVirtIfMd5ActivationWaitTime
fdry.1.2.4.5.1.1.12
Syntax: Integer
Read-write
Determines when a newly configured MD5 authentication key is valid. This parameter provides a graceful transition from one MD5 key to another without disturbing the network. All new packets transmitted after the key activation wait time interval use the newly configured MD5 key. OSPF packets that contain the old MD5 key are accepted for up to five minutes after the new MD5 key is in operation.
Valid values: 0 – 14400 seconds
Default: 300 seconds
snOspfVirtIfAreaIdFormat
fdry.1.2.4.5.1.1.13
Syntax: Integer
Read only Specifies the format of how Area ID will be entered in the “snOspfVirtIfAreaID” object:
• integer(0) – Integer.
• ipAddress(1) – IP address.
Name, OID, and Syntax Access Description
snOspfRedisTable
fdry.1.2.4.6.1
None The OSPF Redistribution Table contains a list of routes that could be imported into the OSPF domain.
snOspfRedisEntry
fdry.1.2.4.6.1.1
None An entry in the OSPF Redistribution Table
snOspfRedisIndex
fdry.1.2.4.6.1.1.1
Syntax: Integer
Read only An ID identifying this destination route.
There can be up to 64 entries for this object.
Name, OID, and Syntax Access Description
19-16 © 2008 Foundry Networks, Inc. April 2008
OSPF
snOspfRedisIpAddress
fdry.1.2.4.6.1.1.2
Syntax: IpAddress
Read-write
Shows the destination IP address that is associated with this particular route.
snOspfRedisMask
fdry.1.2.4.6.1.1.3
Syntax: IpAddress
Read-write
Shows the subnet mask of this route.
snOspfRedisAction
fdry.1.2.4.6.1.1.4
Syntax: Integer
Read-write
Specifies what action to be taken if the route matches this entry:
• noImport(0) – Do not import route into the OSPF domain
• import(1) – Import the route is into OSPF domain as external type 2 route
snOspfRedisProtocol
fdry.1.2.4.6.1.1.5
Syntax: Integer
Read-write
Specifies how routes are imported into the OSPF domain:
• rip(1) – the RIP route.
• all(2) – all protocol route.
• static(3) – the static route.
• bgp(4) – the BGP route.
• connected(5) – the connected route.
• isis(6) – the ISIS route.
snOspfRedisSetOspfMetric
fdry.1.2.4.6.1.1.6
Syntax: Integer
Read-write
The value indicates to which the route metric should match:
• disabled(0) – the route metric does NOT match the OSPF metric field.
• enabled(1) – the route metric matches the OSPF metric field.
snOspfRedisOspfMetricValue
fdry.1.2.4.6.1.1.7
Syntax: Integer
Read-write
Specifies the cost of using this type of service (TOS) on this interface.
Valid values: 0 – 65535.
snOspfRedisMatchRipMetric
fdry.1.2.4.6.1.1.8
Syntax: Integer
Read-write
The value indicates to which the route metric should match:
• disabled(0) – the route metric does NOT match the RIP metric field.
• enabled(1) – the route metric matches the RIP metric field.
snOspfRedisRipMetricValue
fdry.1.2.4.6.1.1.9
Syntax: Integer
Read-write
Specifies the cost of using RIP on this interface.
Valid values: 1 – 15 hops.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 19-17
Foundry Management Information Base Reference
OSPF Neighbor TableThe OSPF Neighbor Table describes non-virtual neighbors in the locality of the router.
Reference:
• RFC 1583 “OSPF Version 2”, section 10 The Neighbor Data Structure
• RFC 1583 “OSPF Version 2”, section 12.1.2 Options
snOspfRedisRowStatus
fdry.1.2.4.6.1.1.10
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snOspfNbrTable
fdry.1.2.4.7.1
None A table of non-virtual neighbor information.
snOspfNbrEntry
fdry.1.2.4.7.1.1
None An entry in the OSPF Neighbor Information Table. One entry represents one neighbor.
snOspfNbrEntryIndex
fdry.1.2.4.7.1.1.1
Syntax: Integer
Read only The table entry index of this neighbor.
snOspfNbrPort
fdry.1.2.4.7.1.1.2
Syntax: Integer
Read only Shows the physical port ID of this neighbor.
snOspfNbrIpAddr
fdry.1.2.4.7.1.1.3
Syntax: IpAddress
Read only Shows the IP address of this neighbor.
snOspfNbrIndex
fdry.1.2.4.7.1.1.4
Syntax: Integer
Read only Contains an index of each neighbor’s port and IP address.
Name, OID, and Syntax Access Description
19-18 © 2008 Foundry Networks, Inc. April 2008
OSPF
snOspfNbrRtrId
fdry.1.2.4.7.1.1.5
Syntax: RouterID
Read only Specifies the IP address of the neighboring router in the Autonomous System. The value of this object is a A 32-bit integer.
Default: ’00000000’h, which is equal to 0.0.0.0
snOspfNbrOptions
fdry.1.2.4.7.1.1.6
Syntax: Integer
Read only The bit mask that is set corresponding to the neighbor’s options field:
• Bit 0 – The system will operate on type of service metrics other than TOS 0. The neighbor will ignore all metrics except for the TOS 0 metric.
• Bit 1 – The associated area accepts and operates on external information; it is a stub area.
• Bit 2 – The system is capable of routing IP Multicast datagrams. It implements the multicast extensions to OSPF.
• Bit 3 – The associated area is an NSSA. These areas are capable of carrying type 7 external advertisements, which are translated into type 5 external advertisements at NSSA borders.
Default: 0
snOspfNbrPriority
fdry.1.2.4.7.1.1.7
Syntax: DesignatedRouterPriority
Read only Specifies the priority of this interface. This object is used in the designated router election algorithm for multi-access networks.
Valid values: 0 – 255
Default: 1. A value of 0 signifies that the router is not eligible to become the designated router on this particular network.
If two or more routers have the same priority value, then the router with the highest router ID becomes the designated router. The router with the next highest router ID becomes the backup designated router.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 19-19
Foundry Management Information Base Reference
snOspfNbrState
fdry.1.2.4.7.1.1.8
Syntax: Integer
Read only Shows the state of the communication between the Layer 3 Switch and the neighbor:
• down(1) – There has been no recent information received from the neighbor.
• attempt(2) – This state is only valid for neighbors attached to non-broadcast networks. It indicates that no recent information has been received from the neighbor.
• init(3) – A Hello packet has recently been seen from the neighbor. However, bidirectional communication has not yet been established with the neighbor. (The router itself did not appear in the neighbor's Hello packet.) All neighbors in this state (or higher) are listed in the Hello packets sent from the associated interface.
• twoWay(4) – Communication between the two routers is bidirectional. This is the most advanced state before beginning adjacency establishment. The Designated Router and Backup Designated Router are selected from the set of neighbors in the 2-Way state or greater.
• exchangeStart(5) – The first step in creating an adjacency between the two neighboring routers. The goal of this step is to decide which router is the master, and to decide upon the initial Database Description (DD) sequence number. Neighbor communications in this state or greater are called adjacencies.
• exchange(6) – The router is describing its entire link-state database by sending DD packets to the neighbor. Each DD packet has a DD sequence number, and is explicitly acknowledged. Only one DD packet can be outstanding at any time. In this state, link-state Request packets can also be sent asking for the neighbor's more recent advertisements. All adjacencies that are in the exchange state or greater are used by the flooding procedure. In fact, these adjacencies are fully capable of transmitting and receiving all types of OSPF routing protocol packets.
• loading(7) – Link-state Request packets are sent to the neighbor asking for the more recent advertisements that have been discovered (but not yet received) in the exchange state.
• full(8) – The neighboring routers are fully adjacent. These adjacencies will now appear in router links and network link advertisements.
Default: down(1)
snOspfNbrEvents
fdry.1.2.4.7.1.1.9
Syntax: Counter
Read only Shows the number of times this neighbor’s state has changed state, or the number of times an error occurred.
Name, OID, and Syntax Access Description
19-20 © 2008 Foundry Networks, Inc. April 2008
OSPF
OSPF Virtual Neighbor TableThe OSPF Virtual Neighbor Table describes all virtual neighbors. Since Virtual links are configured in the virtual interface table, this table is read only.
Reference: RFC 1583 “OSPF Version 2”, section 15 Virtual Links
snOspfNbrLsRetransQLen
fdry.1.2.4.7.1.1.10
Syntax: Gauge
Read only Specifies the interval between the retransmission of link-state advertisements to router adjacencies for this interface. The range is 0 – 3600 seconds.
Default: 5 seconds
Name, OID, and Syntax Access Description
snOspfVirtNbrTable
fdry.1.2.4.8.1
None The OSPF Virtual Neighbor Table.
snOspfVirtNbrEntry
fdry.1.2.4.8.1.1
None An entry in the OSPF Virtual Neighbor Table.
snOspfVirtNbrEntryIndex
fdry.1.2.4.8.1.1.1
Syntax: Integer
Read only The ID of an entry in OSPF Virtual Neighbor Table.
snOspfVirtNbrArea
fdry.1.2.4.8.1.1.2
Syntax: AreaID
Read only Shows the ID of the transit area. The format is defined in the “snOspfVirtNbrAreaIdFormat” object.
snOspfVirtNbrRtrId
fdry.1.2.4.8.1.1.3
Syntax: RouterID
Read only Identifies the IP address of the neighboring router in the Autonomous System. This is a 32-bit integer.
snOspfVirtNbrIpAddr
fdry.1.2.4.8.1.1.4
Syntax: IpAddress
Read only Shows the IP address of this virtual neighbor.
snOspfVirtNbrOptions
fdry.1.2.4.8.1.1.5
Syntax: Integer
Read only Shows a bit map that corresponds to the neighbor’s options field. Thus, Bit 1, if set, indicates that the neighbor supports Type of Service Routing; if zero, no metrics other than TOS 0 are in use by the neighbor.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 19-21
Foundry Management Information Base Reference
snOspfVirtNbrState
fdry.1.2.4.8.1.1.6
Syntax: Integer
Read only Shows the state of the communication between the Layer 3 Switch and the virtual neighbor:
• down(1) – There has been no recent information received from the neighbor.
• attempt(2) – This state is only valid for neighbors attached to non-broadcast networks. It indicates that no recent information has been received from the neighbor.
• init(3) – A Hello packet has recently been seen from the neighbor. However, bidirectional communication has not yet been established with the neighbor. (The router itself did not appear in the neighbor's Hello packet.) All neighbors in this state (or higher) are listed in the Hello packets sent from the associated interface.
• twoWay(4) – Communication between the two routers is bidirectional. This is the most advanced state before beginning adjacency establishment. The Designated Router and Backup Designated Router are selected from the set of neighbors in the 2-Way state or greater.
• exchangeStart(5) – The first step in creating an adjacency between the two neighboring routers. The goal of this step is to decide which router is the master, and to decide upon the initial DD sequence number. Neighbor communications in this state or greater are called adjacencies.
• exchange(6) – The router is describing its entire link-state database by sending DD packets to the neighbor. Each DD packet has a DD sequence number, and is explicitly acknowledged. Only one DD packet can be outstanding at any time. In this state, link-state Request packets can also be sent asking for the neighbor's more recent advertisements. All adjacencies in exchange state or greater are used by the flooding procedure. In fact, these adjacencies are fully capable of transmitting and receiving all types of OSPF routing protocol packets.
• loading(7) – Link-state Request packets are sent to the neighbor asking for the more recent advertisements that have been discovered (but not yet received) in the exchange state.
• full(8) – The neighboring routers are fully adjacent. These adjacencies will now appear in router links and network link advertisements.
snOspfVirtNbrEvents
fdry.1.2.4.8.1.1.7
Syntax: Counter
Read only Shows the number of times the state of this virtual link has changed or an error has occurred.
snOspfVirtNbrLSRetransQLen
fdry.1.2.4.8.1.1.8
Syntax: Gauge
Read only Shows the current length of the retransmission queue.
Name, OID, and Syntax Access Description
19-22 © 2008 Foundry Networks, Inc. April 2008
OSPF
OSPF Link-State DatabaseThe link-state database contains the link-state advertisement from all the areas to which the device is attached.
Reference: RFC 1583 “OSPF Version 2”, section 12 Link State Advertisements.
snOspfVirtNbrAreaIdFormat
fdry.1.2.4.8.1.1.9
Syntax: Integer
Read only Specifies the format of how Area ID will be entered in the “snOspfVirtNbrRtrId” object:
• integer(0) – Integer
• ipAddress(1) – IP address
Name, OID, and Syntax Access Description
snOspfLsdbTable
fdry.1.2.4.9.1
None The OSPF Process’s link-state database.
snOspfLsdbEntry
fdry.1.2.4.9.1.1
None An entry in the OSPF Process’s link-state database. Each entry represents a single link-state advertisement.
snOspfLsdbEntryIndex
fdry.1.2.4.9.1.1.1
Syntax: Integer
Read only The ID of the entry in the link-state database.
snOspfLsdbAreaId
fdry.1.2.4.9.1.1.2
Syntax: AreaID
Read only Shows the Area from which the LSA was received. The value is in a 32-bit format.
Reference: RFC 1583 “OSPF Version 2”, section C.2 Area parameters
snOspfLsdbType
fdry.1.2.4.9.1.1.3
Syntax: Integer
Read only Specifies the type of the link-state advertisement. Each link-state type has a separate advertisement format.
• routerLink(1)
• networkLink(2)
• summaryLink(3)
• asSummaryLink(4)
Reference: RFC 1583 “OSPF Version 2”, section A.4.1 The Link State Advertisement header
snOspfLsdbLsId
fdry.1.2.4.9.1.1.4
Syntax: IpAddress
Read only Specifies the link-state ID. This ID is an LS type-specific field containing either a Router ID or an IP Address. It identifies the piece of the routing domain that is being described by the advertisement.
Reference: RFC 1583 “OSPF Version 2”, section 12.1.4 Link State ID
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 19-23
Foundry Management Information Base Reference
snOspfLsdbRouterId
fdry.1.2.4.9.1.1.5
Syntax: RouterID
Read only Identifies the originating router in the Autonomous System. This information is in a 32-bit number. The format is determined by the “snOspfLsdbAreaIdFormat” object.
Reference: RFC 1583 “OSPF Version 2”, section C.1 Global parameters
NOTE: OSPF Sequence Number is a 32-bit signed integer. It starts with the value ’80000001’h or -’7FFFFFFF’h, and increments until ’7FFFFFFF’h Thus, a typical sequence number will be very negative.
snOspfLsdbSequence
fdry.1.2.4.9.1.1.6
Syntax: Integer
Read only Shows the sequence number of this entry. The OSPF neighbor that sent the LSA stamps the LSA with a sequence number to enable the Layer 3 Switch and other OSPF routers to determine which LSA for a given route is the most recent. This object can be used to detect old and duplicate link-state advertisements. The higher the sequence number, the more recent the advertisement.
Reference: RFC 1583 “OSPF Version 2”, section 12.1.6 LS sequence number
snOspfLsdbAge
fdry.1.2.4.9.1.1.7
Syntax: Integer
Read only Shows the age of the link-state advertisement in seconds.
Reference: RFC 1583 “OSPF Version 2”, section 12.1.1 LS age
snOspfLsdbChecksum
fdry.1.2.4.9.1.1.8
Syntax: Integer
Read only Indicates the checksum for the LSA packet. The checksum is based on all the fields in the packet except the age field. The Layer 3 Switch uses the checksum to verify that the packet is not corrupted.
Reference: RFC 1583 “OSPF Version 2”, section 2.1.7 LS checksum
snOspfLsdbAdvertisement
fdry.1.2.4.9.1.1.9
Syntax: Octet string
Read only Shows the data in the link-state advertisement, including its header in octets.
Reference: RFC 1583 “OSPF Version 2”, section Section 12 Link State Advertisements
snOspfLsdbAreaIdFormat
fdry.1.2.4.9.1.1.10
Syntax: Integer
Read only Specifies the format of how RouterId will be entered in the “snOspfLsdbRouterId” object:
• integer(0) – Integer
• ipAddress(1) – IP address
Name, OID, and Syntax Access Description
19-24 © 2008 Foundry Networks, Inc. April 2008
OSPF
OSPF Link State Database, ExternalThe link-state database contains the link-state advertisement from throughout the areas that the device is attached to.
This table is identical to the OSPF LSDB Table in format, but contains only external link-state advertisement. The purpose is to allow external LSAs to be displayed once for the router rather than once in each non-stub area.
Name, OID, and Syntax Access Description
snOspfExtLsdbTable
fdry.1.2.4.10.1
None The Link-State External Database Table.
Reference: RFC 1583 “OSPF Version 2”, section Section 12 Link State Advertisements
snOspfExtLsdbEntry
fdry.1.2.4.10.1.1
None An entry in the Link-State External Database Table. Each entry represents a single link-state advertisement.
snOspfExtLsdbEntryIndex
fdry.1.2.4.10.1.1.1
Syntax: Integer
Read only The table entry index of this link-state database.
snOspfExtLsdbType
fdry.1.2.4.10.1.1.2
Syntax: Integer
Read only Shows the type of the link-state advertisement. Each link-state type has a separate advertisement format.
Reference: RFC 1583 “OSPF Version 2”, section Appendix A.4.1 The Link State Advertisement header
snOspfExtLsdbLsId
fdry.1.2.4.10.1.1.3
Syntax: Integer
Read only Specifies the external link-state ID. This ID is an LS type-specific field containing either a Router ID or an IP Address. It identifies the piece of the routing domain that is being described by the advertisement.
Reference: RFC 1583 “OSPF Version 2”, section 12.1.4 Link-state ID
snOspfExtLsdbRouterId
fdry.1.2.4.10.1.1.4
Syntax: Integer
Read only Identifies the originating router in the Autonomous System. This information is in a 32-bit number.
Reference: RFC 1583 “OSPF Version 2”, section C.1 Global parameters
NOTE: OSPF Sequence Number is a 32-bit signed integer. It starts with the value ’80000001’h, or -’7FFFFFFF’h. It increments until ’7FFFFFFF’h Thus, a typical sequence number will be very negative.
snOspfExtLsdbSequence
fdry.1.2.4.10.1.1.5
Syntax: Integer
Read only Shows the sequence number of this entry. The OSPF neighbor that sent the LSA stamps it with a sequence number to enable the Layer 3 Switch and other OSPF routers to determine which LSA for a given route is the most recent. This object can be used to detect old and duplicate link-state advertisements. The higher the sequence number, the more recent the advertisement.
Reference: RFC 1583 “OSPF Version 2”, section 12.1.6 LS sequence number
April 2008 © 2008 Foundry Networks, Inc. 19-25
Foundry Management Information Base Reference
OSPF Area Status TableThe OSPF Area Status Data Structure contains information regarding the configured parameters and cumulative statistics of the router’s attached areas. The interfaces and virtual links are configured as part of these areas. Area 0.0.0.0 is the Backbone Area.
Reference: RFC 1583 “OSPF Version 2”, section 6 The Area Data Structure
snOspfExtLsdbAge
fdry.1.2.4.10.1.1.6
Syntax: Integer
Read only Shows the age of the link-state advertisement in seconds.
Reference: RFC 1583 “OSPF Version 2”, section 12.1.1 LS age
snOspfExtLsdbChecksum
fdry.1.2.4.10.1.1.7
Syntax: Integer
Read only Indicates the checksum for the LSA packet. The checksum is based on all the fields in the packet except the age field. The Layer 3 Switch uses the checksum to verify that the packet is not corrupted.
Reference: RFC 1583 “OSPF Version 2”, section 12.1.7 LS checksum
snOspfExtLsdbAdvertisement
fdry.1.2.4.10.1.1.8
Syntax: Octet string
Read only Shows the data in the link-state advertisement, including its header in octets. There can be up to 36 octets in this object.
Reference: RFC 1583 “OSPF Version 2”, section 12 Link State Advertisements
Name, OID, and Syntax Access Description
snOspfAreaStatusTable
fdry.1.2.4.11.1
None The OSPF Area Status Table.
snOspfAreaStatusEntry
fdry.1.2.4.11.1.1
None An entry in the OSPF Area Status Table.
snOspfAreaStatusEntryIndex
fdry.1.2.4.11.1.1.1
Syntax: Integer
Read only The ID of an entry in the OSPF Area Status Table.
snOspfAreaStatusAreaId
fdry.1.2.4.11.1.1.2
Syntax: AreaID
Read only Specifies the ID of an area. The format of this 32-bit integer is determined by the value of the “snOspfAreaStatusAreaIdFormat” object.
Area ID 0.0.0.0 is used for the OSPF backbone.
Reference: RFC 1583 “OSPF Version 2”, section C.2 Area parameters
snOspfAreaStatusImportASExtern
fdry.1.2.4.11.1.1.3
Syntax: Integer
Read only The area’s support for importing AS external link-state advertisements.
Reference: RFC 1583 “OSPF Version 2”, section C.2 Area parameters
Default: 1
Name, OID, and Syntax Access Description
19-26 © 2008 Foundry Networks, Inc. April 2008
OSPF
OSPF Interface Status TableThe OSPF Interface Status Table describes the interfaces from the viewpoint of OSPF. It augments the ifStatusTable with OSPF specific information.
snOspfAreaStatusStubMetric
fdry.1.2.4.11.1.1.4
Syntax: BigMetric
Read only The metric value applied at the default type of service(ospfMetric). By default, this equals the least metric at the type of service among the interfaces to other areas. This object exist only if the value of snOspfAreaSummary is snOspfAreaSummary(2); Otherwise, an SNMP_GET/GET_NEXT attempt of this Object will return NO_SUCH_NAME.
snOspfAreaStatusSpfRuns
fdry.1.2.4.11.1.1.5
Syntax: Counter
Read only Shows the number of times that the intra-area route table has been recalculated using this area’s link-state database.
snOspfAreaStatusAreaBdrRtrCount
fdry.1.2.4.11.1.1.6
Syntax: Gauge
Read only Show the number of area border routers that are reachable within this area. This is initially zero, the default, and is calculated in each shortest path first (SPF) pass.
snOspfAreaStatusASBdrRtrCount
fdry.1.2.4.11.1.1.7
Syntax: Gauge
Read only Shows the total number of Autonomous System border routers that are reachable within this area. This is initially zero, the default, and is calculated in each SPF pass.
snOspfAreaStatusLSACount
fdry.1.2.4.11.1.1.8
Syntax: Gauge
Read only Shows the total number of link-state advertisements in this area’s link-state database, excluding AS external LSAs.
Default: 0
snOspfAreaStatusLSACksumSum
fdry.1.2.4.11.1.1.9
Syntax: Integer
Read only Shows the total link-state advertisements of area’s link-state database. This number is a 32-bit unsigned sum of the LS checksums, excluding external (LS type 5) link-state advertisements. The value can be used to determine if there has been a change in a router’s link-state database, and to compare the link-state database of two routers.
Default: 0
snOspfAreaStatusAreaIdFormat
fdry.1.2.4.11.1.1.10
Syntax: Integer
Read only Specifies the format of how Area ID will be entered in the “snOspfAreaStatusAreaId” object:
• integer(0) – Integer.
• ipAddress(1) – IP address.
Name, OID, and Syntax Access Description
snOspfIfStatusTable
fdry.1.2.4.12.1
None The OSPF Interface Status Table.
Name, OID, and Syntax Access Description
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snOspfIfStatusEntry
fdry.1.2.4.12.1.1
None An entry in the OSPF Interface Status Table. Each entry represents one interface from the viewpoint of OSPF.
snOspfIfStatusEntryIndex
fdry.1.2.4.12.1.1.1
Syntax: Integer
Read only The ID of an entry in the OSPF Interface Status Table.
snOspfIfStatusPort
fdry.1.2.4.12.1.1.2
Syntax: Integer
Read only Shows the ID of the physical router port of this OSPF interface.
snOspfIfStatusIpAddress
fdry.1.2.4.12.1.1.3
Syntax: IpAddress
Read only Shows the IP address of this OSPF interface.
snOspfIfStatusAreaId
fdry.1.2.4.12.1.1.4
Syntax: AreaID
Read only Identifies the area to which the interface connects. This ID is a 32-bit integer. Area ID 0.0.0.0 (in the ’00000000’h format) is used for the OSPF backbone.
The format of this ID is determined by the value of the “snOspfIfStatusAreaIdFormat” object.
snOspfIfStatusType
fdry.1.2.4.12.1.1.5
Syntax: Integer
Read only Identifies the OSPF interface type.
(By way of a default, this field may be derived from the corresponding value of ifType.)
• broadcast(1) – For broadcast LANs such as Ethernet and IEEE 802.5
• nbma(2) – For X.25, Frame Relay, and similar technologies
• pointToPoint(3) – For point-to-point interfaces
snOspfIfStatusAdminStat
fdry.1.2.4.12.1.1.6
Syntax: Integer
Read only Shows if OSPF has been enabled to form neighbor relationships on the interface:
• disabled(0) – The interface is external to OSPF
• enabled(1) – OSPF has been enabled to form neighbor relationships and the interface will be advertised as an internal route to some area
snOspfIfStatusRtrPriority
fdry.1.2.4.12.1.1.7
Syntax: DesignatedRouterPriority
Read only Specifies the priority of this interface. This object is used in the designated router election algorithm for multi-access networks.
Valid values: 0 – 255
Default: 1. A value of 0 means that the router is not eligible to become the designated router on this particular network.
If two or more routers have the same priority value, then the router with the highest router ID becomes the designated router. The router with the next highest router ID becomes the backup designated router.
Name, OID, and Syntax Access Description
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OSPF
snOspfIfStatusTransitDelay
fdry.1.2.4.12.1.1.8
Syntax: UpToMaxAge
Read only Shows the time it takes to transmit link-state update packets on this interface.
Valid values: 0 – 3600 seconds
Default: 1 second
snOspfIfStatusRetransInterval
fdry.1.2.4.12.1.1.9
Syntax: UpToMaxAge
Read only Shows the number of seconds between retransmissions of link-state advertisements, to adjacencies that belong to this interface. This value is also used when retransmitting database description and link-state request packets.
Valid values: 0 – 3600 seconds
Default: 5 seconds
snOspfIfStatusHelloInterval
fdry.1.2.4.12.1.1.10
Syntax: HelloRange
Read only Specifies the number of seconds that router waits before it sends the next Hello packet on this interface. This value must be the same for all routers attached to a common network.
Valid values: 1 – 65535 seconds
Default: 10 seconds
snOspfIfStatusRtrDeadInterval
fdry.1.2.4.12.1.1.11
Syntax: PositiveInteger
Read only Specifies the number of seconds that neighbor routers wait for a router’s Hello packets before they declare that the router is down. This should be a multiple of the Hello interval and must be the same for all routers attached to a common network.
Default: 40 seconds
snOspfIfStatusState
fdry.1.2.4.12.1.1.12
Syntax: Integer
Read only Shows the OSPF Interface State.
• down(1)
• loopback(2)
• waiting(3)
• pointToPoint(4)
• designatedRouter(5)
• backupDesignatedRouter(6)
• otherDesignatedRouter(7)
Default: down(1)
snOspfIfStatusDesignatedRouter
fdry.1.2.4.12.1.1.13
Syntax: IpAddress
Read only Shows the IP Address of the designated router.
Default: ’00000000’h, which equals to 0.0.0.0
snOspfIfStatusBackupDesignatedRouter
fdry.1.2.4.12.1.1.14
Syntax: IpAddress
Read only Shows the IP Address of the backup router.
Default: ’00000000’h, which equals to 0.0.0.0
Name, OID, and Syntax Access Description
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snOspfIfStatusEvents
fdry.1.2.4.12.1.1.15
Syntax: Counter
Read only Shows the following:
• The number of times that the state of this OSPF interface has changed
• The number of times an error has occurred
snOspfIfStatusAuthType
fdry.1.2.4.12.1.1.16
Syntax: Integer
Read only Specifies the authentication type for an interface.
Valid values::
• none(0)
• simplePassword(1)
• md5(2)
• reserved for specification by IANA(> 2)
Additional authentication types may be assigned locally on a per interface basis.
Default: none(0)
snOspfIfStatusAuthKey
fdry.1.2.4.12.1.1.17
Syntax: Octet string
Read only Indicates the area’s authentication key.
• If the authentication type selected is simple password, then this object requires an alphanumeric password. If the value is shorter than eight octets, the agent will left-adjust and zero-fill the key to equal eight octets.
The simple password setting takes effect immediately. All OSPF packets transmitted on the interface contain this password. Any OSPF packet received on the interface is checked for this password. If the password is not present, then the packet is dropped. The password can be up to eight characters long.
• If the authentication type is MD5, then a key ID and an MD5 key are required. The key ID is a number from 1 to 255 and identifies the MD5 key that is being used. The MD5 key can be up to sixteen alphanumeric characters long.
When read, “snOspfIfAuthKey” always returns a blank.
Reference: RFC 1583 “OSPF Version 2”, section 9 The Interface Data Structure
Default: ’0000000000000000’h – 0.0.0.0.0.0.0.0
snOspfIfStatusMetricValue
fdry.1.2.4.12.1.1.18
Syntax: Integer
Read only Specifies the cost of using this TOS on this interface. The default value of the TOS 0 Metric is 10^8 / ifSpeed.
Valid values: 0 – 65535
snOspfIfStatusMd5AuthKeyId
fdry.1.2.4.12.1.1.19
Syntax: Integer
Read only Specifies the ID of the MD5 authentication key. This object identifies the algorithm and secret key used to create the message digest appended to the OSPF packet. Key identifiers are unique per interface.
If the object “snOspfVirtIfAuthType” is set to MD5, the value of this object must be a number from 1 – 255.
Name, OID, and Syntax Access Description
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OSPF
OSPF Virtual Interface Status TableThe Virtual Interface Status Table contains information about this router’s virtual interfaces.
Reference: RFC 1583 “OSPF Version 2”, section C.4 Virtual link parameters.
snOspfIfStatusMd5AuthKey
fdry.1.2.4.12.1.1.20
Syntax: Octet string
Read only Specifies the MD5 authentication key. The value of this object is encrypted and included in each OSPF packet transmitted.
If the value of this object is shorter than 16 octets, the agent will left-adjust and zero-fill the key to equal 16 octets.
When read, snOspfIfMd5AuthKey always returns a blank.
snOspfIfStatusMd5ActivationWaitTime
fdry.1.2.4.12.1.1.21
Syntax: Integer
Read only Determines when a newly configured MD5 authentication key is valid. This parameter provides a graceful transition from one MD5 key to another without disturbing the network. All new packets transmitted after the key activation wait time interval use the newly configured MD5 key. OSPF packets that contain the old MD5 key are accepted for up to five minutes after the new MD5 key is in operation. The range for the key activation wait time is from 0 – 14400 seconds.
snOspfIfStatusAreaIdFormat
fdry.1.2.4.12.1.1.22
Syntax: Integer
Read only Specifies the format of how Area ID will be entered in the “snOspfIfStatusAreaId” object:
• integer(0) – Integer.
• ipAddress(1) – IP address
Name, OID, and Syntax Access Description
snOspfVirtIfStatusTable
fdry.1.2.4.13.1
None The OSPF Virtual Interface Status Table.
snOspfVirtIfStatusEntry
fdry.1.2.4.13.1.1
None An entry in the The OSPF Virtual Interface Status Table. Each entry represents one interface.
snOspfVirtIfStatusEntryIndex
fdry.1.2.4.13.1.1.1
Syntax: Integer
Read only The ID of the entry in this table.
snOspfVirtIfStatusAreaID
fdry.1.2.4.13.1.1.2
Syntax: AreaID
Read only Shows the ID of the transit area that the virtual link traverses. The value of this object cannot be 0.0.0.0. The format of this object is determined by the value of the “snOspfVirtIfStatusAreaIdFormat” object.
snOspfVirtIfStatusNeighbor
fdry.1.2.4.13.1.1.3
Syntax: RouterID
Read only Shows the ID or IP address of the router that is serving as the virtual neighbor.
Name, OID, and Syntax Access Description
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snOspfVirtIfStatusTransitDelay
fdry.1.2.4.13.1.1.4
Syntax: UpToMaxAge
Read only Shows the time it takes to transmit link-state update packets on this interface.
Valid values: 0 – 3600 seconds
Default: 1 second
snOspfVirtIfStatusRetransInterval
fdry.1.2.4.13.1.1.5
Syntax: UpToMaxAge
Read only Specifies the interval between the retransmission of link-state advertisements to router adjacencies for this interface.
Valid values: 0 – 3600 seconds
Default: 5 seconds
snOspfVirtIfStatusHelloInterval
fdry.1.2.4.13.1.1.6
Syntax: HelloRange
Read only Specifies the number of seconds that router waits before it sends the next Hello packet on this interface. This value must be the same for all routers attached to a common network.
Valid values: 1 – 65535 seconds
Default: 10 seconds
This value must be the same for all routers attached to a common network.
snOspfVirtIfStatusRtrDeadInterval
fdry.1.2.4.13.1.1.7
Syntax: PositiveInteger
Read only Specifies the number of seconds that neighbor routers wait for a router’s Hello packets before they declare that the router is down. This should be a multiple of the Hello interval. This value must be the same for all routers attached to a common network.
Default: 60 seconds
snOspfVirtIfStatusState
fdry.1.2.4.13.1.1.8
Syntax: Integer
Read only Shows the state of the OSPF virtual interface:
• down(1)
• pointToPoint(4)
Default: down(1)
snOspfVirtIfStatusEvents
fdry.1.2.4.13.1.1.9
Syntax: Counter
Read only Shows the following:
• The number of times that the state of this OSPF interface has changed
• The number of times an error has occurred
snOspfVirtIfStatusAuthType
fdry.1.2.4.13.1.1.10
Syntax: Integer
Read only Specifies the authentication type for an interface.
Valid values::
• none(0)
• simplePassword(1)
• reserved for specification by IANA(> 1)
Additional authentication types may be assigned locally on a per interface basis.
Default: none(0)
Name, OID, and Syntax Access Description
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OSPF
snOspfVirtIfStatusAuthKey
fdry.1.2.4.13.1.1.11
Syntax: Octet string
Read only Specifies the authentication key.
• If the authentication type selected is simple password, then this object requires an alphanumeric password. If the value is shorter than eight octets, the agent will left-adjust and zero-fill the key to equal eight octets.
The simple password setting takes effect immediately. All OSPF packets transmitted on the interface contain this password. Any OSPF packet received on the interface is checked for this password. If the password is not present, then the packet is dropped. The password can be up to eight characters long.
• If the authentication type is MD5, then a key ID and an MD5 key are required. The key ID is a number from 1 to 255 and identifies the MD5 key that is being used. The MD5 key can be up to sixteen alphanumeric characters long.
When read, “snOspfIfAuthKey” always returns a blank.
Reference: RFC 1583 “OSPF Version 2”, section 9 The Interface Data Structure
Default: ’0000000000000000’h – 0.0.0.0.0.0.0.0
snOspfVirtIfStatusMd5AuthKeyId
fdry.1.2.4.13.1.1.12
Syntax: Integer
Read only Specifies the ID of the MD5 authentication key. This object identifies the algorithm and secret key used to create the message digest appended to the OSPF packet. Key identifiers are unique per interface.
If the object “snOspfVirtIfAuthType” is set to MD5, the value of this object must be a number from 1 – 255.
snOspfVirtIfStatusMd5AuthKey
fdry.1.2.4.13.1.1.13
Syntax: Octet string
Read only Specifies the MD5 authentication key. The value of this object is encrypted and included in each OSPF packet transmitted.
If the value of this object is shorter than 16 octets, the agent will left-adjust and zero-fill the key to equal 16 octets.
When read, snOspfIfMd5AuthKey always returns a blank.
snOspfVirtIfStatusMd5ActivationWaitTime
fdry.1.2.4.13.1.1.14
Syntax: Integer
Read only Determines when a newly configured MD5 authentication key is valid. This parameter provides a graceful transition from one MD5 key to another without disturbing the network. All new packets transmitted after the key activation wait time interval use the newly configured MD5 key. OSPF packets that contain the old MD5 key are accepted for up to five minutes after the new MD5 key is in operation. The range for the key activation wait time is from 0 – 14400 seconds.
snOspfVirtIfStatusAreaIdFormat
fdry.1.2.4.13.1.1.15
Syntax: Integer
Read only Specifies the format of how Area ID will be entered in the “snOspfVirtIfStatusAreaID” object:
• integer(0) – Integer
• ipAddress(1) – IP address
Name, OID, and Syntax Access Description
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OSPF Routing Information TableThe OSPF Routing Information Table contains information on the OSPF ABR/ASBR routing.
Name, OID, and Syntax Access Description
snOspfRoutingInfoTable
fdry.1.2.4.14.1
None The OSPF Routing Information Table.
snOspfRoutingInfoEntry
fdry.1.2.4.14.1.1
None An entry in the OSPF Routing Information Table.
snOspfRoutingInfoIndex
fdry.1.2.4.14.1.1.1
Syntax: Integer
Read only ID of an entry in this table.
snOspfRoutingInfoRouter
fdry.1.2.4.14.1.1.2
Syntax: RouterID
Read only Shows the ID or IP address of the destination router.
snOspfRoutingInfoRouterType
fdry.1.2.4.14.1.1.3
Syntax: Integer
Read only Shows what router type the destination router is:
• abr(1) – Area Border Router.
• asbr(2) – Autonomous System Border Router.
• abrANDasbr(3) – Area Border and Autonomous System Border Router.
snOspfRoutingInfoNextHopRouterID
fdry.1.2.4.14.1.1.4
Syntax: RouterID
Read only Shows the ID or IP address of the next hop destination router.
snOspfRoutingInfoOutgoingInterface
fdry.1.2.4.14.1.1.5
Syntax: Integer
Read only Shows the outgoing interface of the destination router.
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OSPF
Support for the NetIron XMR, NetIron MLX and BigIron RXThe Open Shortest Path First (OSPF) protocol is supported on the NetIron XMR, NetIron MLX, and BigIron RX. The Foundry implementation fully complies with RFC 1850 - OSPF Version 2 Management Information Base.
The following Foundry MIBs are supported on the NetIron XMR, NetIron MLX, and the BigIron RX.
Table 19.1: snOspfAdminStat Scaler
snOspfAdminStat
fdry.1.2.4.1.2
Syntax: Integer
Read-write
Specifies the state of the OSPF in the router:
• disabled(0) – OSPF is disabled on all interfaces
• enabled(1) – OSPF is active on at least one interface
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19-36 © 2008 Foundry Networks, Inc. April 2008
Chapter 20BGP4
Border Gateway Protocol version 4 (BGP4) on Foundry products using the CLI and the Web management interface. BGP4 is supported on the following Foundry products:
• NetIron Internet Backbone router
• BigIron Layer 3 Switch
• NetIron stackable Layer 3 Switch (must have 32MB RAM and 4MB flash module)
Beginning with the NetIron XMR and NetIron MLX release 03.9.00 and BigIron RX 02.6.00 release, see “Support for the NetIron XMR, NetIron MLX and BigIron RX” on page 20-37
The Foundry implementation complies with RFC 1771. The Foundry BGP4 implementation also supports the following RFCs:
• RFC 1745 (OSPF Interactions)
• RFC 1965 (BGP4 Confederations)
• RFC 1997 (BGP Communities Attributes)
• RFC 2385 (TCP MD5 Signature Option)
• RFC 2439 (Route Flap Dampening)
• RFC 2796 (Route Reflection)
• RFC 2842 (Capability Advertisement)
Refer to the Foundry Enterprise Configuration and Management Guide for details on the features discussed in this chapter.
NOTE: Beginning with software release 07.6.03, Foundry devices support RFC 1657 instead of the objects in this chapter. Also, BigIron MG8, NetIron 40G, and FastIron Edge Switch support RFC 1657.
April 2008 © 2008 Foundry Networks, Inc. 20-1
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BGP4 General VariablesThese parameters apply globally to a device’s BGP4 process.
Name, OID, and Syntax Access Description
snBgp4GenAlwaysCompareMed
fdry.1.2.11.1.1
Syntax: Integer
Read-write
Indicates if the comparison of the Multi-Exit Discriminator for paths from neighbors in different AS is enabled:
• disabled(0)
• enabled(1)
snBgp4GenAutoSummary
fdry.1.2.11.1.2
Syntax: Integer
Read-write
Indicates if subnet routes are automatically summarized:
• disabled(0)
• enabled(1)
snBgp4GenDefaultLocalPreference
fdry.1.2.11.1.3
Syntax: Integer
Read-write
Sets the default local preference attribute.
When the router uses the BGP4 algorithm to select a route to send to the IP route table, one of the parameters the algorithm uses is the local preference. Local preference is an attribute that indicates a degree of preference for a route relative to other routes. BGP4 neighbors can send the local preference value as an attribute of a route in an UPDATE message.
Local preference applies only to routes within the local AS. BGP4 routers can exchange local preference information with neighbors who are also in the local AS; however, BGP4 routers do not exchange local preference information with neighbors in remote ASs.
Valid values: 0 – 4294967295
Default: 100
snBgp4GenDefaultInfoOriginate
fdry.1.2.11.1.4
Syntax: Integer
Read-write
Indicates if the default Information Originate is enabled:
• disabled(0)
• enabled(1)
By default, the router does not originate and advertise a default route using BGP4. A BGP4 default route is the IP address 0.0.0.0 and the route prefix 0 or network mask 0.0.0.0. For example, 0.0.0.0/0 is a default route. You can enable the router to advertise a default BGP4 route using either of the following methods.
Foundry Layer 3 Switches check for the existence of an IGP route with 0.0.0.0/0 in the IP route table before creating a local BGP route for 0.0.0.0/0.
snBgp4GenFastExternalFallover
fdry.1.2.11.1.5
Syntax: Integer
Read-write
Indicates if automatic resetting of BGP sessions of any directly adjacent sessions is enabled, if the links used to reach them go down.
• disabled(0)
• enabled(1)
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BGP4
snBgp4GenNextBootNeighbors
fdry.1.2.11.1.6
Syntax: Integer
Read-write
The next boot-configured number of neighbors in a BGP Peer Group. The minimum value of this object is the value of the “snBgp4GenMinNeighbors” object. Its maximum value is the value of the “snBgp4GenMaxNeighbors” object.
snBgp4GenNextBootRoutes
fdry.1.2.11.1.7
Syntax: Integer
Read-write
The next boot-configured number of routes. The minimum value of this MIB is snBgp4GenMinRoutes. The maximum value of this MIB is “snBgp4GenMaxRoutes” .
snBgp4GenSynchronization
fdry.1.2.11.1.8
Syntax: Integer
Read-write
To enable or disable the synchronization between BGP and your IGP.
• disabled(0)
• enabled(1)
snBgp4GenKeepAliveTime
fdry.1.2.11.1.9
Syntax: Integer
Read-write
Indicates how often the device sends keep alive messages.
Valid values: 1 – 65535 seconds
Default: 60 seconds
snBgp4GenHoldTime
fdry.1.2.11.1.10
Syntax: Integer
Read-write
Determines how many seconds the device will wait for a keep alive or update message from a BGP4 neighbor before deciding that the neighbor is dead.
Valid values: 1 – 65535 seconds
Default: 180 seconds
snBgp4GenRouterId
fdry.1.2.11.1.11
Syntax: IpAddress
Read-write
Indicates the BGP Router IP address.
snBgp4GenTableMap
fdry.1.2.11.1.12
Syntax: Octet string
Read-write
Defines the route map name. Each character of the name is represented by one octet.
Valid values: Up to 32 octets.
snBgp4GenAdminStat
fdry.1.2.11.1.13
Syntax: Integer
Read-write
Indicates if BGP4 routing is enabled:
• disabled(0)
• enabled(1)
snBgp4GenDefaultMetric
fdry.1.2.11.1.14
Syntax: Integer
Read-write
Indicates the default metric values for the BGP4 protocol.
The Foundry Layer 3 Switches can redistribute directly connected routes, static IP routes, RIP routes, and OSPF routes into BGP4. The MED (metric) is a global parameter that specifies the cost that will be applied to all routes by default when they are redistributed into BGP4.
Valid values: 0 – 4294967295
snBgp4GenMaxNeighbors
fdry.1.2.11.1.15
Syntax: Integer
Read only Shows the maximum number of neighbors that can be configured in a BGP Peer Group.
Name, OID, and Syntax Access Description
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snBgp4GenMinNeighbors
fdry.1.2.11.1.16
Syntax: Integer
Read only Shows the minimum number of neighbors that can be configured in a BGP Peer Group.
snBgp4GenMaxRoutes
fdry.1.2.11.1.17
Syntax: Integer
Read only Shows the maximum number of configured routes.
snBgp4GenMinRoutes
fdry.1.2.11.1.18
Syntax: Integer
Read only Shows the minimum number of configured routes.
snBgp4GenMaxAddrFilters
fdry.1.2.11.1.19
Syntax: Integer
Read only Shows the maximum number of configured BGP4 address filters.
snBgp4GenMaxAggregateAddresses
fdry.1.2.11.1.20
Syntax: Integer
Read only Shows the maximum number of configured BGP4 aggregate addresses.
snBgp4GenMaxAsPathFilters
fdry.1.2.11.1.21
Syntax: Integer
Read only Shows the maximum number of configured BGP4 AS-PATH filters.
snBgp4GenMaxCommunityFilters
fdry.1.2.11.1.22
Syntax: Integer
Read only Shows the maximum number of configured BGP4 community filters.
snBgp4GenMaxNetworks
fdry.1.2.11.1.23
Syntax: Integer
Read only Shows the maximum number of configured BGP4 networks.
snBgp4GenMaxRouteMapFilters
fdry.1.2.11.1.24
Syntax: Integer
Read only Shows the maximum number of configured BGP4 route map filters.
snBgp4GenNeighPrefixMinValue
fdry.1.2.11.1.25
Syntax: Integer
Read only Shows the minimum configured value of BGP4 neighbor prefix.
snBgp4GenOperNeighbors
fdry.1.2.11.1.26
Read only Shows the current operational max number of neighbors configured for a BGP Group.
Name, OID, and Syntax Access Description
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BGP4
snBgp4GenOperRoutes
fdry.1.2.11.1.27
Syntax: Integer
Read only Shows the current operational number of routes.
snBgp4GenLocalAs
fdry.1.2.11.1.28
Syntax: Integer
Read only Shows the BGP4 local autonomous system number.
snBgp4GenRoutesInstalled
fdry.1.2.11.1.29
Syntax: Integer
Read only Shows the BGP4 installed routes.
snBgp4GenAsPathInstalled
fdry.1.2.11.1.30
Syntax: Integer
Read only Shows the BGP4 installed autonomous system path.
snBgp4ExternalDistance
fdry.1.2.11.1.31
Syntax: Integer
Read-write
Determines the administrative distance for BGP external routes.
Default: 200
snBgp4InternalDistance
fdry.1.2.11.1.32
Syntax: Integer
Read-write
Determines the administrative distance for BGP internal routes.
Default: 200
snBgp4LocalDistance
fdry.1.2.11.1.33
Syntax: Integer
Read-write
Determines the administrative distance for BGP local routes.
Default: 200
snBgp4OperNumOfAttributes
fdry.1.2.11.1.34
Syntax: Integer
Read only Shows the operational number of attribute entries.
snBgp4NextBootMaxAttributes
fdry.1.2.11.1.35
Syntax: Integer
Read-write
Defines the next boot maximum attribute entries.
Default: 10000, which means to reset to default
snBgp4ClusterId
fdry.1.2.11.1.36
Syntax: Integer
Read-write
Defines a cluster ID which is represented by 4-unsigned-byte integers (0..0xFFFFFFFF). 0 means to reset to default.
snBgp4ClientToClientReflection
fdry.1.2.11.1.37
Syntax: Integer
Read-write
Indicates if the client to client reflection in BGP4 is enabled.
• disabled(0)
• enabled(1)
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 20-5
Foundry Management Information Base Reference
snBgp4GenTotalNeighbors
fdry.1.2.11.1.38
Syntax: Integer
Read only Shows the current total number of neighbors running in a BGP group.
snBgp4GenMaxPaths
fdry.1.2.11.1.39
Syntax: Integer
Read-write
Indicates the maximum number of configured Paths.
snBgp4GenConfedId
fdry.1.2.11.1.40
Syntax: Integer
Read-write
Determines the BGP4 Confederation ID. This ID identifies the confederation to BGP routers outside the confederation.
A confederation is a BGP4 AS that has been subdivided into multiple, smaller ASs. Subdividing an AS into smaller ASs simplifies administration and reduces BGP-related traffic, thus reducing the complexity of the Interior Border Gateway Protocol (IBGP) mesh among the BGP routers in the AS.
The confederation ID is the AS ID.
snBgp4GenConfedPeers
fdry.1.2.11.1.41
Syntax: Octet string
Read-write
Specifies the sub-AS numbers that are members of the confederation. There is a maximum of 50 peers.
This is a number from 1 to 0xFFFF. It is represented by two octets.
snBgp4GenDampening
fdry.1.2.11.1.42
Syntax: Integer
Read-write
Specifies the dampening of BGP4 in the device
• none(0) – BGP4 dampening is off
• parameters(1) – Parameters are configurable
• routemap(2) – Routemap is configurable
snBgp4GenDampenHalfLife
fdry.1.2.11.1.43
Syntax: Integer
Read-write
Specifies the number of minutes after which the route’s penalty becomes half its value.
snBgp4GenDampenReuse
fdry.1.2.11.1.44
Syntax: Integer
Read-write
Specifies how low a route’s penalty must be before the route becomes eligible for use again after being suppressed.
snBgp4GenDampenSuppress
fdry.1.2.11.1.45
Syntax: Integer
Read-write
Specifies how high a route’s penalty can be before the Layer 3 Switch suppresses the route.
snBgp4GenDampenMaxSuppress
fdry.1.2.11.1.46
Syntax: Integer
Read-write
Specifies the maximum number of minutes that a route can be suppressed regardless of how unstable it is.
Name, OID, and Syntax Access Description
20-6 © 2008 Foundry Networks, Inc. April 2008
BGP4
BGP4 Network TableThe BGP4 Network Table shows the weight used for the network.
snBgp4GenDampenMap
fdry.1.2.11.1.47
Syntax: Octet string
Read-write
Specifies the name of the route map that will be used to redirect traffic.
The name is an octet string. Each character is represented by one octet.
Valid values: Up to 32 octets.
Name, OID, and Syntax Access Description
snBgp4NetworkTable
fdry.1.2.11.10.1
None The BGP4 Network Table.
snBgp4NetworkEntry
fdry.1.2.11.10.1.1
None An entry in the BGP4 Network Table.
snBgp4NetworkIp
fdry.1.2.11.10.1.1.1
Syntax: IpAddress
Read only Shows the IP Address for a network entry.
snBgp4NetworkSubnetMask
fdry.1.2.11.10.1.1.2
Syntax: IpAddress
Read only Shows the subnet mask for a network entry.
snBgp4NetworkWeight
fdry.1.2.11.10.1.1.3
Syntax: Integer
Read-write
Shows the weight of the neighbor connection.
Valid values: 0 – 65535
snBgp4NetworkBackdoor
fdry.1.2.11.10.1.1.4
Syntax: Integer
Read-write
Indicates if the backdoor option is enabled for this network:
• disabled(0)
• enabled(1)
The backdoor option changes the administrative distance of the route to this network from the EBGP administrative distance (20 by default) to the Local BGP weight (200 by default). The route is tagged as a backdoor route. Use this option when you want the router to prefer IGP routes such as RIP or OSPF routes over the EBGP route for the network
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 20-7
Foundry Management Information Base Reference
BGP4 Address Filter TableYou can configure the router to explicitly permit or deny specific IP addresses received in updates from BGP4 neighbors by defining IP address filters. The router permits all IP addresses by default. You can define up to 100 IP address filters for BGP4.
• If you want “permit” to remain the default behavior, define individual filters to deny specific IP addresses.
• If you want to change the default behavior to “deny”, define individual filters to permit specific IP addresses.
NOTE: Once you define a filter, the default action for addresses that do not match a filter is “deny”. To change the default action to “permit”, configure the last filter as “permit any any”.
Address filters can be referred to by a BGP neighbor's distribute list number as well as by match statements in a route map.
snBgp4NetworkRowStatus
fdry.1.2.11.10.1.1.5
Syntax: Integer
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snBgp4AddrFilterTable
fdry.1.2.11.2.1
None The BGP4 Address Filter Table
snBgp4AddrFilterEntry
fdry.1.2.11.2.1.1
None An entry in the BGP4 Address Filter Table
snBgp4AddrFilterIndex
fdry.1.2.11.2.1.1.1
Syntax: Integer
Read only The table index for a filter entry.
snBgp4AddrFilterAction
fdry.1.2.11.2.1.1.2
Syntax: Integer
Read-write
Indicates what the device will do if the BGP address matches this filter:
• deny(0)
• permit(1)
Name, OID, and Syntax Access Description
20-8 © 2008 Foundry Networks, Inc. April 2008
BGP4
BGP4 Aggregate Address Table By default, the Layer 3 Switch advertises individual routes for all the networks. The aggregation feature allows you to configure the Layer 3 Switch to aggregate routes in a range of networks into a single CIDR number.
snBgp4AddrFilterSourceIp
fdry.1.2.11.2.1.1.3
Syntax: IpAddress
Read-write
Specifies the source IP address.
snBgp4AddrFilterSourceMask
fdry.1.2.11.2.1.1.4
Syntax: IpAddress
Read-write
Specifies the source IP subnet mask.
snBgp4AddrFilterDestIp
fdry.1.2.11.2.1.1.5
Syntax: IpAddress
Read-write
Specifies the destination IP address.
snBgp4AddrFilterDestMask
fdry.1.2.11.2.1.1.6
Syntax: IpAddress
Read-write
Specifies the destination IP subnet mask.
snBgp4AddrFilterRowStatus
fdry.1.2.11.2.1.1.7
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snBgp4AggregateAddrTable
fdry.1.2.11.3.1
None The BGP4 Aggregate Address Table
snBgp4AggregateAddrEntry
fdry.1.2.11.3.1.1
None An entry in the BGP4 Aggregate Address Table
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 20-9
Foundry Management Information Base Reference
snBgp4AggregateAddrIp
fdry.1.2.11.3.1.1.1
Syntax: IpAddress
Read only Shows the aggregate Address IP address.
Specify 0 for the host portion and for the network portion that differs among the networks in the aggregate. For example, to aggregate 10.0.1.0, 10.0.2.0, and 10.0.3.0, enter the IP address 10.0.0.0 and the network mask 255.255.0.0 in the next object.
snBgp4AggregateAddrMask
fdry.1.2.11.3.1.1.2
Syntax: IpAddress
Read only Shows the aggregate Address IP subnet mask.
snBgp4AggregateAddrOption
fdry.1.2.11.3.1.1.3
Syntax: Integer
Read only Specifies the type of aggregate address option that is being used:
• address(1) – Adds an address. This is the default option.
• asSet(2) – Causes the router to aggregate AS-path information for all the routes in the aggregate address into a single AS-path.
• summaryOnly(3) – Prevents the router from advertising more specific routes contained within the aggregate route.
• suppressMap(4) – Prevents the more specific routes contained in the specified route map from being advertised.
• advertiseMap(5) – Configures the router to advertise the more specific routes in the specified route map.
• attributeMap(6) – Configures the router to set attributes for the aggregate routes based on the specified route map.
snBgp4AggregateAddrMap
fdry.1.2.11.3.1.1.4
Syntax: Octet string
Read-write
Specifies the name of the route map to be used if the “snBgp4AggregateAddrOption” object is set to suppressMap(4), advertiseMap(5), or attributeMap(6).
The value of this object is an octet string. Each character in the address map name is represented by one octet. There can be up to 32 octets in this object.
snBgp4AggregateAddrRowStatus
fdry.1.2.11.3.1.1.5
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
20-10 © 2008 Foundry Networks, Inc. April 2008
BGP4
BGP4 Attribute Entries TableThe BGP4 Attribute Entries Table contains the sets of BGP4 attributes stored in the router’s memory. Each set of attributes is unique and can be associated with one or more routes.
Name, OID, and Syntax Access Description
snBgp4AttributeTable
fdry.1.2.11.18.1
None The BGP4 Attribute Entries Table.
snBgp4AttributeEntry
fdry.1.2.11.18.1.1
None An entry in the BGP4 Attribute Entries Table.
snBgp4AttributeIndex
fdry.1.2.11.18.1.1.1
Syntax: Integer
Read only Shows the index for a route entry.
snBgp4AttributeNextHop
fdry.1.2.11.18.1.1.2
Syntax: Integer
Read only Shows the IP address of the next hop router for routes that have this set of attributes.
snBgp4AttributeMetric
fdry.1.2.11.18.1.1.3
Syntax: Integer
Read only Shows the cost of the route entry.
snBgp4AttributeOrigin
fdry.1.2.11.18.1.1.4
Syntax: Integer
Read only Shows the origin of this route:
• igp(0) – Routes with this set of attributes came to BGP through IGP.
• egp(1) – Routes with this set of attributes came to BGP through EGP.
• incomplete(2) – Routes came from an origin other than one of the above. For example, they may have been redistributed from OSPF or RIP.
snBgp4AttributeAggregatorAs
fdry.1.2.11.18.1.1.5
Syntax: Integer
Read only Shows the aggregator AS number for an attribute entry. AS in which the network information in the attribute set was aggregated. This value applies only to aggregated routes and is otherwise 0.
snBgp4AttributeRouterId
fdry.1.2.11.18.1.1.6
Syntax: Integer
Read only Shows the ID of the device that originated this aggregator.
snBgp4AttributeAtomicAggregatePresent
fdry.1.2.11.18.1.1.7
Syntax: Integer
Read only Shows if this aggregation has resulted in information loss.
• false(0) – No information loss
• true(1) – Information has been lost
April 2008 © 2008 Foundry Networks, Inc. 20-11
Foundry Management Information Base Reference
BGP4 AS-Path Filter TableA list of the other ASs through which a route passes. BGP4 routers can use the AS-path to detect and eliminate routing loops.
snBgp4AttributeLocalPreference
fdry.1.2.11.18.1.1.8
Syntax: Integer
Read only Shows the degree of preference for routes that use this set of attributes, relative to other routes in the local AS.
snBgp4AttributeCommunityList
fdry.1.2.11.18.1.1.9
Syntax: Octet string
Read only Shows the communities that routes with this set of attributes are in.
A community is represented by four octets. The community list, could have some well known numbers such as:
• BGP_COMMUNITY_ATTRIBUTE_NO_EXPORT0xFFFFFF01
• BGP_COMMUNITY_ATTRIBUTE_NO_ADVERTISE0xFFFFFF02
If the community list is a NULL string (empty list) then the community is INTERNET, which is represented by a number from 1 to 0xFFFFFFFF.
snBgp4AttributeAsPathList
fdry.1.2.11.18.1.1.10
Syntax: Octet string
Read only Shows the ASs through which routes with this set of attributes have passed.
The local AS is shown in parentheses.
This is a number from 1 – 0xFFFF. This integer number is represented by two octets.
snBgp4AttributeOriginator
fdry.1.2.11.18.1.1.11
Syntax: IpAddress
Read only Shows the originator of the route in a route reflector environment.
snBgp4AttributeClusterList
fdry.1.2.11.18.1.1.12
Syntax: Octet string
Read only Shows the route reflector clusters through which this set of attributes has passed.
The list is a group of cluster IDs. Each ID is an IP address represented by four octets.
Name, OID, and Syntax Access Description
snBgp4AsPathFilterTable
fdry.1.2.11.4.1
None The BGP4 AS-Path Filter Table
snBgp4AsPathFilterEntry
fdry.1.2.11.4.1.1
None An entry in the BGP4 AS-Path Filter Table
snBgp4AsPathFilterIndex
fdry.1.2.11.4.1.1.1
Syntax: Integer
Read only The table index for a filter entry.
Name, OID, and Syntax Access Description
20-12 © 2008 Foundry Networks, Inc. April 2008
BGP4
BGP4 Community Filter TableYou can filter routes received from BGP4 neighbors based on community names.
snBgp4AsPathFilterAction
fdry.1.2.11.4.1.1.2
Syntax: Integer
Read-write
Specifies what the device will do if the BGP address matches this filter.
• deny(0)
• permit(1)
snBgp4AsPathFilterRegExpression
fdry.1.2.11.4.1.1.3
Syntax: Octet string
Read-write
Shows the AS in the filter that is using a regular expression. Each character of the regular expression string is represented by one octet.
Valid values: Up to 256
snBgp4AsPathFilterRowStatus
fdry.1.2.11.4.1.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snBgp4CommunityFilterTable
fdry.1.2.11.5.1
None The BGP4 Community Filter Table.
snBgp4CommunityFilterEntry
fdry.1.2.11.5.1.1
None An entry in the BGP4 Community Filter Table.
snBgp4CommunityFilterIndex
fdry.1.2.11.5.1.1.1
Syntax: Integer
Read only The table index for a filter entry.
snBgp4CommunityFilterAction
fdry.1.2.11.5.1.1.2
Syntax: Integer
Read-write
Specifies what the device will do if the BGP address matches this filter.
• deny(0)
• permit(1)
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 20-13
Foundry Management Information Base Reference
BGP4 Route Map Filter Table A route map is a named set of match conditions and parameter settings that a Foundry Layer 3 Switch can use to modify route attributes and to control redistribution of routes.
snBgp4CommunityFilterCommNum
fdry.1.2.11.5.1.1.3
Syntax: Octet string
Read-write
Identifies the filter’s number. This is a number from 1 – 0xFFFFFFFF. There can be up to 20 filters. Each integer is represented by four octets.
snBgp4CommunityFilterInternet
fdry.1.2.11.5.1.1.4
Syntax: Integer
Read-write
Indicates if Internet Community is enabled
• disabled(0)
• enabled(1)
snBgp4CommunityFilterNoAdvertise
fdry.1.2.11.5.1.1.5
Syntax: Integer
Read-write
Checks the route to see if it has the keyword “NO_ADVERTISE”. If the route has the keyword, it will not be advertised to EBGP peers:
• false(0)
• true(1)
snBgp4CommunityFilterNoExport
fdry.1.2.11.5.1.1.6
Syntax: Integer
Read-write
Checks the route to see if it has the keyword “NO_EXPORT”. If the route has the keyword, it will not be advertised to EBGP peers outside the local AS:
• false(0)
• true(1)
snBgp4CommunityFilterRowStatus
fdry.1.2.11.5.1.1.7
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snBgp4CommunityFilterLocalAs
fdry.1.2.11.5.1.1.8
Syntax: Integer
Read-write
Checks the route to see if it has the keyword “LOCAL_AS”. If the route has the keyword the community applies only to confederations. The device will advertises the route only within the sub-AS.
• false(0)
• true(1)
Name, OID, and Syntax Access Description
20-14 © 2008 Foundry Networks, Inc. April 2008
BGP4
BGP4 allows you to include the redistribution filters as part of a route map. A route map examines and modifies route information exchanged between BGP4 and RIP or OSPF.
BGP4 Route Map Match Configuration Table A route map is a named set of match conditions and parameter settings that a Foundry Layer 3 Switch can use to modify route attributes and to control redistribution of routes.
Name, OID, and Syntax Access Description
snBgp4RouteMapFilterTable
fdry.1.2.11.12.1
None The BGP4 RouteMap Filter Table.
snBgp4RouteMapFilterEntry
fdry.1.2.11.12.1.1
None An entry in the BGP4 RouteMap Filter Table.
snBgp4RouteMapFilterMapName
fdry.1.2.11.12.1.1.1
Syntax: Octet string
Read only Shows the route map’s name.
The value of this object contains an octet string. Each character is represented by one octet. There can be up to 32 octets in this object.
snBgp4RouteMapFilterSequenceNum
fdry.1.2.11.12.1.1.2
Syntax: Integer
Read only Shows the sequence number for this particular route map.
snBgp4RouteMapFilterAction
fdry.1.2.11.12.1.1.3
Syntax: Integer
Read-write
Tells the device what to do if the BGP address matches this entry.
• deny(0)
• permit(1)
snBgp4RouteMapFilterRowStatus
fdry.1.2.11.12.1.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
April 2008 © 2008 Foundry Networks, Inc. 20-15
Foundry Management Information Base Reference
BGP4 allows you to include the redistribution filters as part of a route map. A route map examines and modifies route information exchanged between BGP4 and RIP or OSPF.
Name, OID, and Syntax Access Description
snBgp4RouteMapMatchTable
fdry.1.2.11.13.1
None The BGP4 Route Map Set Table
snBgp4RouteMapMatchEntry
fdry.1.2.11.13.1.1
None An entry in the BGP4 Route Map Set Table
snBgp4RouteMapMatchMapName
fdry.1.2.11.13.1.1.1
Syntax: Octet string
Read only Shows the name of the route map to be matched.
The value of this object is an octet string. Each character of the name is represented by one octet. There can be up to 32 octets in this object.
snBgp4RouteMapMatchSequenceNum
fdry.1.2.11.13.1.1.2
Syntax: Integer
Read only Shows the sequence number for this particular route map. Routes are matched to the route map in ascending numerical order. Matching stops once a match is found.
snBgp4RouteMapMatchAsPathFilter
fdry.1.2.11.13.1.1.3
Syntax: Octet string
Read-write
Identifies the AS path list number that this route must match.
This is a number from 1 – 0xFFFF. There are 10. Each number consists of of two octets.
snBgp4RouteMapMatchCommunityFilter
fdry.1.2.11.13.1.1.4
Syntax: Octet string
Read-write
Identifies the community filter number that this route must match.
This is a number from 1 – 0xFFFF. There are 10. Each number consists of of two octets.
snBgp4RouteMapMatchAddressFilter
fdry.1.2.11.13.1.1.5
Syntax: Octet string
Read-write
Identifies the address filter number that this route must match.
This is a number from 1 – 0xFFFF. There are 10. Each number consists of two octets. There can be a total of 20 octets in this object.
snBgp4RouteMapMatchMetric
fdry.1.2.11.13.1.1.6
Syntax: Integer
Read-write
Compares the route’s MED (metric) to the this value. There can be up to 20 octets in this object.
snBgp4RouteMapMatchNextHopList
fdry.1.2.11.13.1.1.7
Syntax: Octet string
Read-write
Compares the IP address of the route’s next hop to the IP address filters in this route.
This is a number from 1 – 0xFFFF, represented by two octets. There are 16 of them. There can be a total of 32 octets in this object.
20-16 © 2008 Foundry Networks, Inc. April 2008
BGP4
snBgp4RouteMapMatchRouteType
fdry.1.2.11.13.1.1.8
Syntax: Integer
Read-write
Determines the OSPF route type to match:
• none(0)
• external(1)
• externalType1(2)
• externalType2(3)
• internal(4)
• local(5)
Currently only externalType1(2), externalType2(3), and internal(4) is supported for SNMP-SET.
snBgp4RouteMapMatchTagList
fdry.1.2.11.13.1.1.9
Syntax: Octet string
Read-write
Identifies the community tag access list that this route must match.
This is a number represented by an octet strings. There can be up to 32 octets in this object.
snBgp4RouteMapMatchRowMask
fdry.1.2.11.13.1.1.10
Syntax: Integer
Read-write
This object is used together with the MIB objects above in the same VARBIND to set and reset any MIBs in the table. The bit number is referred to the snBgp4RouteMapMatchEntry number of each row in the table:
The bit is ON - means set
The bit is OFF - means reset
snBgp4RouteMapMatchAsPathAccessList
fdry.1.2.11.13.1.1.11
Syntax: Octet string
Read-write
Indicates which BGP AS path access list this route must match.
This is an integer from 1 – 0xFFFFFFFF, consisting of five sets of four octets.
snBgp4RouteMapMatchCommunityList
fdry.1.2.11.13.1.1.12
Syntax: Octet string
Read-write
Indicates which BGP community access list this route must match.
This is an integer from 1 – 0xFFFFFFFF, consisting of five sets of four octets.
snBgp4RouteMapMatchAddressAccessList
fdry.1.2.11.13.1.1.13
Syntax: Octet string
Read-write
Indicates which BGP address access list this route must match.
This is an integer from 1 – 0xFFFFFFFF, consisting of five sets of two octets.
snBgp4RouteMapMatchAddressPrefixList
fdry.1.2.11.13.1.1.14
Syntax: Octet string
Read-write
Indicates the prefix list that must match a BGP address access list.
Valid values: Up to 170 octets.
snBgp4RouteMapMatchNextHopAccessList
fdry.1.2.11.13.1.1.15
Syntax: Octet string
Read-write
Indicates the ID of the next hop router that this route must match.
This is an integer from 1 – 0xFFFFFFFF, consisting of five integers. Each integer has two octets.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 20-17
Foundry Management Information Base Reference
BGP4 Route Map Set Configuration Table A route map is a named set of match conditions and parameter settings that a Foundry Layer 3 Switch can use to modify route attributes and to control redistribution of routes.
BGP4 allows you to include the redistribution filters as part of a route map. A route map examines and modifies route information exchanged between BGP4 and RIP or OSPF.
snBgp4RouteMapMatchNextHopPrefixList
fdry.1.2.11.13.1.1.16
Syntax: Octet string
Read-write
Indicates the prefix list of the next hop router that this route must.
Valid values: Up to 170 octets.
Name, OID, and Syntax Access Description
snBgp4RouteMapSetTable
fdry.1.2.11.14.1
None The BGP4 Route Map Set Table.
snBgp4RouteMapSetEntry
fdry.1.2.11.14.1.1
None An entry in the BGP4 Route Map Set Table.
snBgp4RouteMapSetMapName
fdry.1.2.11.14.1.1.1
Syntax: Octet string
Read only Specifies the name of the route map you want to use to set or change BGP4 attributes for the network you are advertising
The value of this object is an octet string. Each character of the name is represented by one octet.
snBgp4RouteMapSetSequenceNum
fdry.1.2.11.14.1.1.2
Syntax: Integer
Read only Shows the sequence of the route map.
snBgp4RouteMapSetAsPathType
fdry.1.2.11.14.1.1.3
Syntax: Integer
Read-write
Specifies how an AS path for BGP routes will be modified:
• tag(0) – Converts the tag of a route into an AS path.
• prepend(1) – Adds the specified AS numbers to the front of the value of the “snBgp4RouteMapSetAsPathString” object of the matching route.
snBgp4RouteMapSetAsPathString
fdry.1.2.11.14.1.1.4
Syntax: Octet string
Read-write
Specifies the AS-path string. This string is used only if the snBgp4RouteMapSetAsPathCmd was sent together with the value set to prepend(1).
snBgp4RouteMapSetAutoTag
fdry.1.2.11.14.1.1.5
Syntax: Integer
Read-write
Indicates if the automatic tag option for BGP routes is enabled:
• disabled(0)
• enabled(1)
If enabled, the automatic tag calculates and sets an automatic tag value for the route
Name, OID, and Syntax Access Description
20-18 © 2008 Foundry Networks, Inc. April 2008
BGP4
snBgp4RouteMapSetCommunityType
fdry.1.2.11.14.1.1.6
Syntax: Integer
Read-write
Indicates if BGP communities attributes are allowed:
• nums(0) – Allow community attributes
• none(3) – No community attributes are allowed
The old values 1 and 2 are not valid starting with Release 05.03.00.
snBgp4RouteMapSetCommunityNum
fdry.1.2.11.14.1.1.7
Syntax: Integer
Read-write
Shows the community number of this route.
Applies only if the object “snBgp4RouteMapSetCommunityType” that was sent on this route is set to nums(0).
snBgp4RouteMapSetCommunityAdditive
fdry.1.2.11.14.1.1.8
Syntax: Integer
Read-write
Indicates if the option to add the existing communities to the route is enabled:
• disabled(0)
• enabled(1)
snBgp4RouteMapSetLocalPreference
fdry.1.2.11.14.1.1.9
Syntax: Integer
Read-write
Specifies the local preference for the route. You can set the preference to a value from 0 – 4294967295.
snBgp4RouteMapSetMetric
fdry.1.2.11.14.1.1.10
Syntax: Integer
Read-write
Sets the MED (metric) value for the route.
snBgp4RouteMapSetNextHop
fdry.1.2.11.14.1.1.11
Syntax: IpAddress
Read-write
Indicates the IP address of the next hop for the BGP routes.
snBgp4RouteMapSetOrigin
fdry.1.2.11.14.1.1.12
Syntax: Integer
Read-write
Shows the BGP route origin:
• igp(0) – Routes with this set of attributes came to BGP through IGP.
• egp(1) – Routes with this set of attributes came to BGP through EGP.
• incomplete(2) – routes came from an origin other than IGP or EGP. For example, they may have been redistributed from OSPF or RIP.
snBgp4RouteMapSetTag
fdry.1.2.11.14.1.1.13
Syntax: Integer
Read-write
Specifies the tag for BGP routes.
snBgp4RouteMapSetWeight
fdry.1.2.11.14.1.1.14
Syntax: Integer
Read-write
Specifies the BGP weight for the routing table.
Valid values: 0 – 65535
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 20-19
Foundry Management Information Base Reference
BGP4 Redistribution of Routes TableThe BGP4 Redistribution of Routes Table contains configurations that could be imported into the BGP4 domain. Each entry specifies a particular RIP, OSPF, or static route that will be imported into the BGP4 domain.
snBgp4RouteMapSetRowMask
fdry.1.2.11.14.1.1.15
Syntax: Integer
Read-write
This object is used together with the MIB objects above in the same VARBIND to set and reset any MIBs in the table. The bit number is referred to the snBgp4RouteMapSetEntry number of each row in the table.
• The bit is ON - means set
• The bit is OFF - means reset
snBgp4RouteMapSetCommunityNums
fdry.1.2.11.14.1.1.16
Syntax: Octet string
Read-write
Shows the community number for this route. Community number is a number from 1 – 0xFFFFFFFF. There are six community numbers. Each number is represented by four octets.
snBgp4RouteMapSetDampenHalfLife
fdry.1.2.11.14.1.1.17
Syntax: Integer
Read-write
Specifies the number of minutes after which the route’s penalty becomes half its value.
snBgp4RouteMapSetDampenReuse
fdry.1.2.11.14.1.1.18
Syntax: Integer
Read-write
Specifies how low a route’s penalty must be before the route becomes eligible for use again after being suppressed.
snBgp4RouteMapSetDampenSuppress
fdry.1.2.11.14.1.1.19
Syntax: Integer
Read-write
Specifies how high a route’s penalty can be before the Layer 3 Switch suppresses the route.
snBgp4RouteMapSetDampenMaxSuppress
fdry.1.2.11.14.1.1.20
Syntax: Integer
Read-write
Specifies the maximum number of minutes that a route can be suppressed regardless of how unstable it is.
Name, OID, and Syntax Access Description
snBgp4RedisTable
fdry.1.2.11.11.1
None The BGP4 Redistribution of Routes Table.
snBgp4RedisEntry
fdry.1.2.11.11.1.1
None An entry in the BGP4 Redistribution of Routes Table.
Name, OID, and Syntax Access Description
20-20 © 2008 Foundry Networks, Inc. April 2008
BGP4
snBgp4RedisProtocol
fdry.1.2.11.11.1.1.1
Syntax: Integer
Read only Shows the type of route that was imported into the BGP4 domain:
• rip(1) – RIP
• ospf(2) – OSPF
• static(3) – Static
• connected(4) – Connected
• isis(5) – ISIS
snBgp4RedisMetric
fdry.1.2.11.11.1.1.2
Syntax: Integer
Read-write
Indicates the metric used..
snBgp4RedisRouteMap
fdry.1.2.11.11.1.1.3
Syntax: Octet string
Read-write
Indicates the name of the route map used.
Each character is represented by one octet.
Valid values: Up to 32 octets.
snBgp4RedisWeight
fdry.1.2.11.11.1.1.4
Syntax: Integer
Read-write
Specifies the weight assigned to this entry.
snBgp4RedisMatchInternal
fdry.1.2.11.11.1.1.5
Syntax: Integer
Read-write
Applies only to the OSPF protocol.
• disabled(0)
• enabled(1)
snBgp4RedisMatchExternal1
fdry.1.2.11.11.1.1.6
Syntax: Integer
Read-write
Applies only to the OSPF protocol.
• disabled(0)
• enabled(1)
snBgp4RedisMatchExternal2
fdry.1.2.11.11.1.1.7
Syntax: Integer
Read-write
Applies only to the OSPF protocol.
• disabled(0)
• enabled(1)
snBgp4RedisRowStatus
fdry.1.2.11.11.1.1.8
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 20-21
Foundry Management Information Base Reference
BGP4 Routes Operational Status Table
Name, OID, and Syntax Access Description
snBgp4RouteOperStatusTable
fdry.1.2.11.16.1
None The BGP4 Router Operational Status Table.
snBgp4RouteOperStatusEntry
fdry.1.2.11.16.1.1
None An entry in the BGP4 Router Operational Status Table.
snBgp4RouteOperStatusIndex
fdry.1.2.11.16.1.1.1
Syntax: Integer
Read only The index for a route entry.
snBgp4RouteOperStatusIp
fdry.1.2.11.16.1.1.2
Syntax: IpAddress
Read only Shows the IP address of the route.
snBgp4RouteOperStatusSubnetMask
fdry.1.2.11.16.1.1.3
Syntax: IpAddress
Read only Shows the IP Subnet Mask of the route.
snBgp4RouteOperStatusNextHop
fdry.1.2.11.16.1.1.4
Syntax: IpAddress
Read only Shows the IP address of the next hop in the route.
snBgp4RouteOperStatusMetric
fdry.1.2.11.16.1.1.5
Syntax: Integer
Read only Shows the value of the route’s MED attribute.
snBgp4RouteOperStatusLocalPreference
fdry.1.2.11.16.1.1.6
Syntax: Integer
Read only Shows the degree of preference for this route relative to other routes in the local AS. When the BGP4 algorithm compares routes on the basis of local preferences, the route with the higher local preference is chosen. The preference can have a value from 0 – 4294967295.
snBgp4RouteOperStatusWeight
fdry.1.2.11.16.1.1.7
Syntax: Integer
Read only The value that this router associates with routes from a specific neighbor. For example, if the router receives routes to the same destination from two BGP4 neighbors, the router prefers the route from the neighbor with the larger weight.
snBgp4RouteOperStatusOrigin
fdry.1.2.11.16.1.1.8
Syntax: Integer
Read only Shows the route’s origin:
• igp(0) – Routes with this set of attributes came to BGP through IGP.
• egp(1) – Routes with this set of attributes came to BGP through EGP.
• incomplete(2) – routes came from an origin other than IGP or EGP. For example, they may have been redistributed from OSPF or RIP.
20-22 © 2008 Foundry Networks, Inc. April 2008
BGP4
snBgp4RouteOperStatusStatus
fdry.1.2.11.16.1.1.9
Syntax: Integer
Read only Shows the route’s status.
The value of this object is a bit array, a packed bit string. The following shows the meaning of each bit. A bit position may be set to 0 – FALSE or 1 – TRUE:
Bit position Meaning
6 – 31 reserved
5 aggregate route for multiple networks
4 best route to destination
3 internal, learned through BGP4
2 local, originated on this device
1 suppressed, suppressed during aggregation and thus is not advertised to neighbors
0 valid
snBgp4RouteOperStatusRouteTag
fdry.1.2.11.16.1.1.10
Syntax: Integer
Read only Sets the route’s tag. This can be a value from 0 – 4294967295. This object applies only to routes redistributed into OSPF
snBgp4RouteOperStatusCommunityList
fdry.1.2.11.16.1.1.11
Syntax: Octet string
Read only Shows the communities the route is in.
A community is represented by 4 octets. The community list, could have some well-known numbers such as:
• BGP_COMMUNITY_ATTRIBUTE_NO_EXPORT0xFFFFFF01
• BGP_COMMUNITY_ATTRIBUTE_NO_ADVERTISE0xFFFFFF02
If the community list is a NULL string (empty list) then the community is INTERNET, which is represented by a number from 1 – 0xFFFFFFFF.
snBgp4RouteOperStatusAsPathList
fdry.1.2.11.16.1.1.12
Syntax: Octet string
Read only Shows the AS Path list of this route.
Valid values: 1 – 0xFFFF. This integer is represented by two octets.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 20-23
Foundry Management Information Base Reference
BGP4 Neighbor General Configuration TableThe BGP4 protocol does not contain a peer discovery process. You must indicate the neighbor’s IP address for each of the router’s BGP4 neighbors (peers), as well as the AS each neighbor is in. Neighbors that are in different ASs communicate using EBGP. Neighbors within the same AS communicate use IBGP.
Name, OID, and Syntax Access Description
snBgp4NeighGenCfgTable
fdry.1.2.11.6.1
None The BGP4 Neighborhood General Configuration Table.
snBgp4NeighGenCfgEntry
fdry.1.2.11.6.1.1
None An entry in the BGP4 Neighborhood General Configuration Table.
snBgp4NeighGenCfgNeighIp
fdry.1.2.11.6.1.1.1
Syntax: IpAddress
Read only Shows the IP Address for a neighbor entry.
snBgp4NeighGenCfgAdvertlevel
fdry.1.2.11.6.1.1.2
Syntax: Integer
Read-write
Specifies the minimum delay (in seconds) between messages to the specified neighbor.
Valid values: 0 – 600
Defaults:
• 30 for EBGP neighbors (neighbors in other ASs)
• 5 for IBGP neighbors (neighbors in the same AS).
snBgp4NeighGenCfgDefOriginate
fdry.1.2.11.6.1.1.3
Syntax: Integer
Read-write
Indicates if the default originate for this neighbor is enabled:
• disabled(0)
• enabled(1)
If enabled, the device sends the default route 0.0.0.0 to the neighbor.
snBgp4NeighGenCfgEbgpMultihop
fdry.1.2.11.6.1.1.4
Syntax: Integer
Read-write
Indicates if the EBGP Muitihop for this neighbor is enabled.
• disabled(0)
• enabled(1)
If enabled, the neighbor is more than one hop away and that the session type with the neighbor is thus EBGP multihop.
Default: disabled(0)
snBgp4NeighGenCfgMaxPrefix
fdry.1.2.11.6.1.1.5
Syntax: Integer
Read-write
Specifies the maximum number of IP network prefixes (routes) that can be learned from the specified neighbor or peer group. You can specify a value from 0 – 4294967295.
Default: 0 (unlimited)
The minimum value of the maximum prefix is defined by the “snBgp4GenNeighPrefixMinValue” object. The maximum value of the maximum prefix is defined by the “snBgp4GenOperRoutes” object.
20-24 © 2008 Foundry Networks, Inc. April 2008
BGP4
snBgp4NeighGenCfgNextHopSelf
fdry.1.2.11.6.1.1.6
Syntax: Integer
Read-write
Indicates if the option that allows the router to list itself as the next hop in the updates sent to the specified neighbor is enabled:
• disabled(0)
• enabled(1)
Default: disabled(0)
snBgp4NeighGenCfgRemoteAs
fdry.1.2.11.6.1.1.7
Syntax: Integer
Read-write
Specifies the AS that the remote neighbor is in.
Valid values: 1 – 65535
Default: no default
snBgp4NeighGenCfgSendComm
fdry.1.2.11.6.1.1.8
Syntax: Integer
Read-write
Indicates if the option to send community attributes in updates to specified neighbors is enabled:
• disabled(0)
• enabled(1)
Default: disabled(0)
snBgp4NeighGenCfgWeight
fdry.1.2.11.6.1.1.9
Syntax: Integer
Read-write
Assigns a weight to a neighbor connection.
BGP4 prefers larger weights over smaller weights.
Valid values: 0 – 65535
Default: 0
snBgp4NeighGenCfgWeightFilterList
fdry.1.2.11.6.1.1.10
Syntax: Octet string
Read-write
Specifies a weight that the device applies to routes received from the neighbor that match the AS-path filter or ACL.
Valid values: 1 – 0xFFFF. There are 16 of them. Each integer is represented by two octets.
snBgp4NeighGenCfgRowStatus
fdry.1.2.11.6.1.1.11
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 20-25
Foundry Management Information Base Reference
snBgp4NeighGenCfgUpdateSrcLpbIntf
fdry.1.2.11.6.1.1.12
Syntax: Integer
Read-write
Specifies the loopback interface number for TCP connections.
Valid values: 0 – 8
Generally, loopback interfaces are used for links to IBGP neighbors, which often are multiple hops away, rather than to EBGP neighbors. Zero interface means to restore the interface assignment to the closest interface, which is called the best local address.
snBgp4NeighGenCfgRouteRefClient
fdry.1.2.11.6.1.1.13
Syntax: Integer
Read-write
Indicates if the option to allow this neighbor to be a router reflector client is enabled:
• disabled(0)
• enabled(1)
snBgp4NeighGenCfgRemovePrivateAs
fdry.1.2.11.6.1.1.14
Syntax: Integer
Read-write
Specifies if the option to remove private AS numbers from update messages that routers sent to this neighbor is enabled.
• disabled(0)
• enabled(1)
If enabled, the router will remove AS numbers 64512 – 65535 (the well known BGP4 private AS numbers) from the AS-path attribute in UPDATE messages the device sends to the neighbor.
Default: disabled(0)
snBgp4NeighGenCfgEbgpMultihopTtl
fdry.1.2.11.6.1.1.15
Syntax: Integer
Read-write
Specifies the time-to-live (TTL) for the neighbor.
Valid values: 0 – 255.
Default: 0. If you leave the EBGP TTL value set to 0, the software uses the IP TTL value.
snBgp4NeighGenCfgShutdown
fdry.1.2.11.6.1.1.16
Syntax: Integer
Read-write
Indicates if BGP4 neighbor shutdown is enabled:
• disabled(0)
• enabled(1)
If enabled, the device shuts down the session with this neighbor. Shutting down the session allows you to completely configure the neighbor and save the configuration without actually establishing a session with the neighbor.
Default: disabled(0)
snBgp4NeighGenCfgKeepAliveTime
fdry.1.2.11.6.1.1.17
Syntax: Integer
Read-write
Indicates how often the device sends keep alive messages. This object overrides the global settings for the Keepalive Time
Valid values: 0 – 65535 seconds
Name, OID, and Syntax Access Description
20-26 © 2008 Foundry Networks, Inc. April 2008
BGP4
BGP4 Neighbor Distribute Group Table
snBgp4NeighGenCfgHoldTime
fdry.1.2.11.6.1.1.18
Syntax: Integer
Read-write
Determines how many seconds the device will wait for a keep alive or update message from a BGP4 neighbor before deciding that the neighbor is dead.
This object overrides the global settings for Hold Time.
Valid values: 0 or 3 – 65535 seconds (1 and 2 seconds are not allowed)
If you set the Hold Time to 0, the router waits indefinitely for messages from a neighbor.
snBgp4NeighGenCfgDefOrigMap
fdry.1.2.11.6.1.1.19
Syntax: Octet string
Read-write
Indicates if the name of the default route map. This is an octet string. Each character is represented by one octet.
Valid values: Up to 32 octets
snBgp4NeighGenCfgDesc
fdry.1.2.11.6.1.1.20
Syntax: Octet string
Read-write
Specifies the name for the neighbor.
Valid values: Up to 80 octets
snBgp4NeighGenCfgPass
fdry.1.2.11.6.1.1.21
Syntax: Octet string
Read-write
Specifies an MD5 password for securing sessions between the device and its neighbor.
Valid values: Up to 80 octets
Name, OID, and Syntax Access Description
snBgp4NeighDistGroupTable
fdry.1.2.11.7.1
None The BGP4 Neighbor Distribute Group Table
snBgp4NeighDistGroupEntry
fdry.1.2.11.7.1.1
None An entry in the BGP4 Neighbor Distribute Group Table
snBgp4NeighDistGroupNeighIp
fdry.1.2.11.7.1.1.1
Syntax: IpAddress
Read only Shows the IP Address for this entry.
snBgp4NeighDistGroupDir
fdry.1.2.11.7.1.1.2
Syntax: Integer
Read only Indicates if the access list is applied to incoming or outgoing advertisements:
• out(0)
• in(1)
snBgp4NeighDistGroupAccessList
fdry.1.2.11.7.1.1.3
Syntax: Octet string
Read-write
Indicates the access list that will be applied to advertisements.
This is number from 1 – 0xFFFF. There are 16 of them. Each integer is represented by two octets.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 20-27
Foundry Management Information Base Reference
snBgp4NeighDistGroupRowStatus
fdry.1.2.11.7.1.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snBgp4NeighDistGroupInFilterList
fdry.1.2.11.7.1.1.5
Syntax: Octet string
Read-write
Indicates the group filter list that will be applied to incoming advertisements.
This is number from 1 – 0xFFFF. There are 16 of them. Each integer is represented by two octets.
snBgp4NeighDistGroupOutFilterList
fdry.1.2.11.7.1.1.6
Syntax: Octet string
Read-write
Indicates the group filter list that will be applied to outgoing advertisements.
This is number from 1 – 0xFFFF. There are 16 of them. Each integer is represented by two octets.
snBgp4NeighDistGroupInIpAccessList
fdry.1.2.11.7.1.1.7
Syntax: Octet string
Read-write
Indicates the access list that will be applied to incoming advertisements. This is number from 1 – 0xFFFF. There are 16 of them. Each integer is represented by two octets.
snBgp4NeighDistGroupOutIpAccessList
fdry.1.2.11.7.1.1.8
Syntax: Octet string
Read-write
Indicates the access list that will be applied to outgoing advertisements.
This is number from 1 – 0xFFFF. There are 16 of them. Each integer is represented by two octets.
snBgp4NeighDistGroupInPrefixList
fdry.1.2.11.7.1.1.9
Syntax: Octet string
Read-write
Specifies the prefix name list of incoming advertisements.
Valid values; Up to 32 octets
snBgp4NeighDistGroupOutPrefixList
fdry.1.2.11.7.1.1.10
Syntax: Octet string
Read-write
Specifies the prefix name list of outgoing advertisements.
Valid values; Up to 32 octets
Name, OID, and Syntax Access Description
20-28 © 2008 Foundry Networks, Inc. April 2008
BGP4
BGP4 Neighbor Filter Group TableThe BGP4 Neighbor Filter Group Table control the routes that the device learns or advertises.
Name, OID, and Syntax Access Description
snBgp4NeighFilterGroupTable
fdry.1.2.11.8.1
None The BGP4 Neighbor Filter Group Table.
snBgp4NeighFilterGroupEntry
fdry.1.2.11.8.1.1
None An entry in the BGP4 Neighbor Filter Group table.
snBgp4NeighFilterGroupNeighIp
fdry.1.2.11.8.1.1.1
Syntax: IpAddress
Read only Shows the IP Address for a neighbor entry.
snBgp4NeighFilterGroupDir
fdry.1.2.11.8.1.1.2
Syntax: Integer
Read only Shows the direction of advertisements to which the access list is applied.
• out(0) – Outgoing
• in(1) – Incoming
snBgp4NeighFilterGroupAccessList
fdry.1.2.11.8.1.1.3
Syntax: Octet string
Read-write
Identifies the access list that is being used to filter a neighbor group.
This is a number from 1 – 0xFFFF. There are 16 of them. This integer is represented by two octets.
snBgp4NeighFilterGroupRowStatus
fdry.1.2.11.8.1.1.4
Syntax: IpAddress
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snBgp4NeighFilterGroupInFilterList
fdry.1.2.11.8.1.1.5
Syntax: Octet string
Read-write
Identifies the filter list that is being used to filter incoming routes from a neighbor group.
This is a number from 1 – 0xFFFF. There are 16 of them. This integer is represented by two octets.
April 2008 © 2008 Foundry Networks, Inc. 20-29
Foundry Management Information Base Reference
BGP4 Neighbor Route Map TableA route map can be one of the parameters a BGP4 network can advertised. The Layer 3 Switch can use the route map to set or change BGP4 attributes when creating a local BGP4 route.
snBgp4NeighFilterGroupOutFilterList
fdry.1.2.11.8.1.1.6
Syntax: Octet string
Read-write
Identifies the filter list that is being used to filter outgoing routes from a neighbor group.
This is a number from 1 – 0xFFFF. There are 16 of them. This integer is represented by two octets.
snBgp4NeighFilterGroupInAsPathAccessList
fdry.1.2.11.8.1.1.7
Syntax: Octet string
Read-write
Identifies the AS path list that is being used to filter incoming routes from a neighbor group.
This is a number from 1 – 0xFFFF. There are 16 of them. This integer is represented by two octets.
snBgp4NeighFilterGroupOutAsPathAccessList
fdry.1.2.11.8.1.1.8
Syntax: Octet string
Read-write
Identifies the AS path list that is being used to filter outgoing routes from a neighbor group.
This is a number from 1 – 0xFFFF. There are 16 of them. This integer is represented by two octets.
snBgp4NeighFilterGroupWeight
fdry.1.2.11.8.1.1.9
Syntax: Integer
Read-write
Assign a weight to a neighbor filter.
Valid values: 0 – 65535
snBgp4NeighFilterGroupWeightAccessList
fdry.1.2.11.8.1.1.10
Syntax: Octet string
Read-write
This is a number from 1 – 0xFFFF. There are 16 of them. This integer is represented by two octets.
Name, OID, and Syntax Access Description
snBgp4NeighRouteMapTable
fdry.1.2.11.9.1
None The BGP4 Neighbor Route Map Table.
snBgp4NeighRouteMapEntry
fdry.1.2.11.9.1.1
None An entry in the BGP4 Route Map Table.
snBgp4NeighRouteMapNeighIp
fdry.1.2.11.9.1.1.1
Syntax: IpAddress
Read only Shows the IP Address for a neighbor entry.
snBgp4NeighRouteMapDir
fdry.1.2.11.9.1.1.2
Syntax: Integer
Read only Indicates the direction of the advertisement to which the access list is applied:
• out(0)
• in(1)
Name, OID, and Syntax Access Description
20-30 © 2008 Foundry Networks, Inc. April 2008
BGP4
BGP4 Neighbor Operational Status TableThe BGP4 Neighbor Operational Status Table shows the state of a neighbor and statistics about the messages sent and received.
snBgp4NeighRouteMapMapName
fdry.1.2.11.9.1.1.3
Syntax: Octet string
Read-write
Specifies the name of the route map you want to use. The value of this object is an octet string. Each character of the name is represented by one octet. There can be up to 32 octets in this object.
snBgp4NeighRouteMapRowStatus
fdry.1.2.11.9.1.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snBgp4NeighOperStatusTable
fdry.1.2.11.15.1
None The BGP4 Neighbor Operational Status Table.
snBgp4NeighOperStatusEntry
fdry.1.2.11.15.1.1
None An entry in the BGP4 Neighbor Operational Status Table.
snBgp4NeighOperStatusIndex
fdry.1.2.11.15.1.1.1
Syntax: Integer
Read only The index for the entry. Each entry represents a neighbor.
snBgp4NeighOperStatusIp
fdry.1.2.11.15.1.1.2
Syntax: IpAddress
Read only Shows the IP address of the neighbor.
snBgp4NeighOperStatusRemoteAs
fdry.1.2.11.15.1.1.3
Syntax: Integer
Read only Shows the AS that the neighbor is in.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 20-31
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snBgp4NeighOperStatusBgpType
fdry.1.2.11.15.1.1.4
Syntax: Integer
Read only Shows the type of BGP protocol used by this entry:
• ebgp(0) – The neighbor is in another AS
• ibgp(1) – The neighbor is in the same AS
snBgp4NeighOperStatusState
fdry.1.2.11.15.1.1.5
Syntax: Integer
Read only Shows the state of this neighbor:
• noState(0)
• idle(1) – BGP4 process is waiting to be started. Usually, enabling BGP4 or establishing a neighbor session starts the BGP4 process. A minus sign (-) indicates that the session has gone down and the software is clearing or removing routes.
• connect(2) – BGP4 is waiting for the connection process for the TCP neighbor session to be completed.
• active(3) – BGP4 is waiting for a TCP connection from the neighbor.
• openSent(4) – BGP4 is waiting for an Open message from the neighbor.
• openConfirm(5) – BGP4 has received an OPEN message from the neighbor and is now waiting for either a KEEPALIVE or NOTIFICATION message. If the router receives a KEEPALIVE message from the neighbor, the state changes to established(6). If the message is a NOTIFICATION, the state changes to idle(1).
• established(6) – BGP4 is ready to exchange UPDATE messages with the neighbor.
NOTE: If there is more BGP data in the TCP receiver queue, a plus sign (+) is also displayed.
snBgp4NeighOperStatusKeepAliveTime
fdry.1.2.11.15.1.1.6
Syntax: Integer
Read only Specifies how often this router sends keep alive messages to the neighbor.
snBgp4NeighOperStatusHoldTime
fdry.1.2.11.15.1.1.7
Syntax: Integer
Read only Specifies how many seconds the router will wait for a keepalive or update message from a BGP4 neighbor before deciding that the neighbor is dead.
snBgp4NeighOperStatusAdvertlevel
fdry.1.2.11.15.1.1.8
Syntax: Integer
Read only Shows the minimum interval between the sending of BGP routing updates.
snBgp4NeighOperStatusKeepAliveTxCounts
fdry.1.2.11.15.1.1.9
Read only Shows the number of keep alive message sent.
Name, OID, and Syntax Access Description
20-32 © 2008 Foundry Networks, Inc. April 2008
BGP4
BGP4 Neighbor Summary TableThe BGP4 Neighbor Summary Table shows statistics for the router’s BGP4 neighbors.
snBgp4NeighOperStatusKeepAliveRxCounts
fdry.1.2.11.15.1.1.10
Syntax: Counter
Read only Shows the number of keep alive message received.
snBgp4NeighOperStatusUpdateTxCounts
fdry.1.2.11.15.1.1.11
Syntax: Counter
Read only Shows the number of updated message sent.
snBgp4NeighOperStatusUpdateRxCounts
fdry.1.2.11.15.1.1.12
Syntax: Counter
Read only Shows the number of updated message received.
snBgp4NeighOperStatusNotifTxCounts
fdry.1.2.11.15.1.1.13
Syntax: Counter
Read only Shows the number of Notification message sent.
snBgp4NeighOperStatusNotifRxCounts
fdry.1.2.11.15.1.1.14
Syntax: Counter
Read only Shows the number of Notification message received.
snBgp4NeighOperStatusOpenTxCounts
fdry.1.2.11.15.1.1.15
Syntax: Counter
Read only Shows the number of open message sent.
snBgp4NeighOperStatusOpenRxCounts
fdry.1.2.11.15.1.1.16
Syntax: Counter
Read only Shows the number of open message received.
Name, OID, and Syntax Access Description
snBgp4NeighborSummaryTable
fdry.1.2.11.17.1
None The BGP4 Neighbor Summary Table.
snBgp4NeighborSummaryEntry
fdry.1.2.11.17.1.1
None An entry in the BGP4 Router Operational Status Table.
Name, OID, and Syntax Access Description
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snBgp4NeighborSummaryIndex
fdry.1.2.11.17.1.1.1
Syntax: Integer
Read only The index for a route entry.
snBgp4NeighborSummaryIp
fdry.1.2.11.17.1.1.2
Syntax: IpAddress
Read only Shows the IP address of the neighbor.
snBgp4NeighborSummaryState
fdry.1.2.11.17.1.1.3
Syntax: Integer
Read only Shows the state of the BGP4 process during the current session with the neighbor.
• noState(0)
• idle(1) – The BGP4 process is waiting to be started. Usually, enabling BGP4 or establishing a neighbor session starts the BGP4 process. A minus sign (-) indicates that the session has gone down and the software is clearing or removing routes.
• connect(2) – Waiting for the connection process for the TCP neighbor session to be completed.
• active(3) – BGP4 is waiting for a TCP connection from the neighbor.
• openSent(4) – BGP4 is waiting for an Open message from the neighbor.
• openConfirm(5) – BGP4 has received an OPEN message from the neighbor and is now waiting for either a KEEPALIVE or NOTIFICATION message. If the router receives a KEEPALIVE message from the neighbor, the state changes to established(6). If the message is a NOTIFICATION, the state changes to idle(1).
• established(6) – BGP4 is ready to exchange UPDATE messages with the neighbor. If there is more BGP data in the TCP receiver queue, a plus sign (+) is also displayed.
snBgp4NeighborSummaryStateChgTime
fdry.1.2.11.17.1.1.4
Syntax: Integer
Read only Shows the number of times the state of this neighbor has changed. If the state frequently changes between CONNECT and ACTIVE, there may be a problem with the TCP connection.
snBgp4NeighborSummaryRouteReceived
fdry.1.2.11.17.1.1.5
Syntax: Integer
Read only Shows the number of routes received from the neighbor during the current BGP4 session.
snBgp4NeighborSummaryRouteInstalled
fdry.1.2.11.17.1.1.6
Syntax: Integer
Read only Indicates how many of the received routes was accepted and installed in the BGP4 route table.
Name, OID, and Syntax Access Description
20-34 © 2008 Foundry Networks, Inc. April 2008
BGP4
BGP4 Clear Neighbor Command Table
BGP4 Neighbor Prefix Group Table
Name, OID, and Syntax Access Description
snBgp4ClearNeighborCmdTable
fdry.1.2.11.19.1
None The BGP4 Clear Neighbor Command Table.
snBgp4ClearNeighborCmdEntry
fdry.1.2.11.19.1.1
None An entry in the BGP4 Clear Neighbor Command Table.
snBgp4ClearNeighborCmdIp
fdry.1.2.11.19.1.1.1
Syntax: IpAddress
Read only Shows the IP Address of a neighbor entry. If the IP address is 255.255.255.255, then the entry applies to all neighbors.
snBgp4ClearNeighborCmdElement
fdry.1.2.11.19.1.1.2
Syntax: Integer
Read-write
Indicates what will be cleared
• valid(0) – Received in SNMP-GET.
• lastPacketWithError(1) – Clears the buffer containing the first 400 bytes of the last BGP4 packet that contained an error.
• notificationErrors(2) – Clears the buffer containing the last NOTIFICATION message sent or received.
• softOutbound(3) – Update all outbound routes by applying the new or changed filters, but sends only the existing routes affected by the new or changed filters to the neighbor.
• traffic(4) – Clears the BGP4 message counters for all neighbors (the default) or a neighbor.
• neighbor(5) – Clears the BGP4 message counter for all neighbors within a peer group.
Name, OID, and Syntax Access Description
snBgp4NeighPrefixGroupTable
fdry.1.2.11.20.1
None The BGP4 Neighbor Prefix Group Table.
snBgp4NeighPrefixGroupEntry
fdry.1.2.11.20.1.1
None An entry in the BGP4 Neighbor Prefix Group Table. Each entry is a neighbor.
snBgp4NeighPrefixGroupNeighIp
fdry.1.2.11.20.1.1.1
Syntax: IpAddress
Read only Shows the neighbor’s IP Address.
April 2008 © 2008 Foundry Networks, Inc. 20-35
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snBgp4NeighPrefixGroupDir
fdry.1.2.11.20.1.1.2
Syntax: Integer
Read only Shows the direction of the advertisement to which this filter will be applied:
• outgoing(0) – Applied to routes that will be transmitted to the neighbor.
• incoming(1) – Applied to routes received from the neighbor.
snBgp4NeighPrefixGroupInAccessList
fdry.1.2.11.20.1.1.3
Syntax: Octet string
Read-write
If the “snBgp4NeighPrefixGroupDir” object is set to incoming(1), this object shows the name of the prefix list for incoming routes.
There can be up to 32 octets in this object.
snBgp4NeighPrefixGroupOutAccessList
fdry.1.2.11.20.1.1.4
Syntax: Octet string
Read-write
If the “snBgp4NeighPrefixGroupDir” object is set outgoing(0), this object shows the name of the prefix list for outgoing routes.
There can be up to 32 octets in this object.
snBgp4NeighPrefixGroupRowStatus
fdry.1.2.11.20.1.1.5
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
20-36 © 2008 Foundry Networks, Inc. April 2008
BGP4
Support for the NetIron XMR, NetIron MLX and BigIron RXBorder Gateway Protocol version 4 (BGP4) is supported on the NetIron XMR, NetIron MLX, and BigIron RX. The Foundry implementation fully complies with RFC 4273 - Definitions of Managed Objects for BGP-4.
The following Foundry MIBs are supported on the NetIron XMR, NetIron MLX, and the BigIron RX.
Table 20.1: snBgp4GenAdminStat Scalar
Table 20.2: snBgp4GenLocalAs Scalar
BGP4 Neighbor Summary TableThe BGP4 Neighbor Summary Table shows statistics for the router’s BGP4 neighbors.
Table 20.3: BGP4 Neighbor Summary Table
Name, OID, and Syntax Access Description
snBgp4GenAdminStat
fdry.1.2.11.1.13
Syntax: Integer
Read-write
Indicates if BGP4 routing is enabled:
• disabled(0)
• enabled(1)
Name, OID, and Syntax Access Description
snBgp4GenLocalAs
fdry.1.2.11.1.28
Syntax: Integer
Read only Shows the BGP4 local autonomous system number.
Name, OID, and Syntax Access Description
snBgp4NeighborSummaryTable
fdry.1.2.11.17.1
None The BGP4 Neighbor Summary Table.
snBgp4NeighborSummaryEntry
fdry.1.2.11.17.1.1
None An entry in the BGP4 Router Operational Status Table.
snBgp4NeighborSummaryIndex
fdry.1.2.11.17.1.1.1
Syntax: Integer
Read only The index for a route entry.
snBgp4NeighborSummaryIp
fdry.1.2.11.17.1.1.2
Syntax: IpAddress
Read only Shows the IP address of the neighbor.
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snBgp4NeighborSummaryState
fdry.1.2.11.17.1.1.3
Syntax: Integer
Read only Shows the state of the BGP4 process during the current session with the neighbor.
• noState(0)
• idle(1) – The BGP4 process is waiting to be started. Usually, enabling BGP4 or establishing a neighbor session starts the BGP4 process. A minus sign (-) indicates that the session has gone down and the software is clearing or removing routes.
• connect(2) – Waiting for the connection process for the TCP neighbor session to be completed.
• active(3) – BGP4 is waiting for a TCP connection from the neighbor.
• openSent(4) – BGP4 is waiting for an Open message from the neighbor.
• openConfirm(5) – BGP4 has received an OPEN message from the neighbor and is now waiting for either a KEEPALIVE or NOTIFICATION message. If the router receives a KEEPALIVE message from the neighbor, the state changes to established(6). If the message is a NOTIFICATION, the state changes to idle(1).
• established(6) – BGP4 is ready to exchange UPDATE messages with the neighbor. If there is more BGP data in the TCP receiver queue, a plus sign (+) is also displayed.
snBgp4NeighborSummaryStateChgTime
fdry.1.2.11.17.1.1.4
Syntax: Integer
Read only Shows the number of times the state of this neighbor has changed. If the state frequently changes between CONNECT and ACTIVE, there may be a problem with the TCP connection.
snBgp4NeighborSummaryRouteReceived
fdry.1.2.11.17.1.1.5
Syntax: Integer
Read only Shows the number of routes received from the neighbor during the current BGP4 session.
snBgp4NeighborSummaryRouteInstalled
fdry.1.2.11.17.1.1.6
Syntax: Integer
Read only Indicates how many of the received routes was accepted and installed in the BGP4 route table.
Name, OID, and Syntax Access Description
20-38 © 2008 Foundry Networks, Inc. April 2008
Chapter 21IPX
This chapter presents the objects in the Foundry MIBs for the Internet Packet Exchange (IPX) protocol. IPX is available in Foundry’s Layer 3 Switches, such as the BigIron product.
Refer to the Foundry Enterprise Configuration and Management Guide for details on IPX support in Foundry devices.
NOTE: IPX MIBs are not supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
IPX General ObjectsThe following presents the general objects used to define IPX.
Name, OID, and Syntax Access Description
snIpxRoutingMode
fdry.1.2.1.1.1
Syntax: Integer
Read-write
Shows the IPX Routing Mode status:
• disabled(0)
• enabled(1)
snIpxNetBiosFilterMode
fdry.1.2.1.1.2
Syntax: Integer
Read-write
Shows the NetBios Filter Mode status.
• disabled(0)
• enabled(1)
April 2008 © 2008 Foundry Networks, Inc. 21-1
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snIpxClearCache
fdry.1.2.1.1.3
Syntax: ClearStatus
Read-write
Indicates if the cache table will be cleared.
• normal(0)l
• clear(1)
snIpxClearRoute
fdry.1.2.1.1.4
Syntax: ClearStatus
Read-write
Indicates if the IPX table will be cleared.
• normal(0)l
• clear(1)
snIpxClearTrafficCnts
fdry.1.2.1.1.5
Syntax: ClearStatus
Read-write
Indicates if all IPX traffic counters are cleared:
• normal(0) – Do not clear counters
• clear(1) – Clear counters
The IPX traffic counters affected by this object are:
• snIpxRcvPktsCnt
• snIpxFwdPktsCnt
• snIpxRcvDropPktsCnt
• snIpxTxDropPktsCnt
• snIpxRcvFiltPktsCnt
• snIpxTxFiltPktsCnt
snIpxRcvPktsCnt
fdry.1.2.1.1.6
Syntax: Counter
Read only The number of IPX packets received on the Layer 3 Switch.
snIpxTxPktsCnt
fdry.1.2.1.1.7
Syntax: Counter
Read only The number of IPX packets that originated on the Layer 3 Switch and sent on its port.
snIpxFwdPktsCnt
fdry.1.2.1.1.8
Syntax: Counter
Read only The number of IPX packets received by the Layer 3 Switch from another device and then sent out on its port.
snIpxRcvDropPktsCnt
fdry.1.2.1.1.9
Syntax: Counter
Read only The number of packets received by the Layer 3 Switch that the switch dropped.
snIpxRcvFiltPktsCnt
fdry.1.2.1.1.10
Syntax: Counter
Read only The number of packets received by a port that matched an inbound IPX filter configured on the port.
snIpxRipGblFiltList
fdry.1.2.1.1.11
Syntax: Octet string
Read-write
An IPX RIP Global Filter List. There can be up to 32 octets in this object.
Name, OID, and Syntax Access Description
21-2 © 2008 Foundry Networks, Inc. April 2008
IPX
snIpxRipFiltOnAllPort
fdry.1.2.1.1.12
Syntax: Integer
Read-write
Applies the IPX RIP Global filter list in the “snIpxRipGblFiltList” object to all interfaces. This object adds all RIP filter lists and deletes all RIP filter lists from all ports. Before sending this command, the “snIpxRipGblFiltList” object must be defined.
The values that can be written are:
• deleteAllInBound(2) – Deletes all in-bound filter lists from all ports.
• deleteAllOutBound(3) – Deletes all out-bound filter lists from all ports.
• addAllInBound(4) – Adds all in-bound filter lists to all ports.
• addAllOutBound(5) – Adds all out-bound filter lists to all ports.
The following values can be returned on reads:
• noSuch(0) – Set operation has not be performed.
• valid(1) – Set operation is done and is valid.
snIpxSapGblFiltList
fdry.1.2.1.1.13
Syntax: Octet string
Read-write
Contains an IPX SAP Global Filter List. There can be up to 32 octets in this object.
snIpxSapFiltOnAllPort
fdry.1.2.1.1.14
Syntax: Integer
Read-write
Applies the IPX RIP Global filter list in the “snIpxSapGblFiltList” object to all interfaces. This object adds all filter lists and deletes all SAP filter lists from all ports. Before sending this command, the object “snIpxSapGblFiltList” must be defined.
The values that can be written are:
• deleteAllInBound(2) – Deletes all in-bound filter lists from all ports.
• deleteAllOutBound(3) – Deletes all out-bound filter lists from all ports.
• addAllInBound(4) – Adds all in-bound filter lists to all ports.
• addAllOutBound(5) – Adds all out-bound filter lists to all ports.
The following values can be returned on reads:
• noSuch(0) – Set operation has not be performed.
• valid(1) – Set operation is done and is valid.
snIpxTxDropPktsCnt
fdry.1.2.1.1.15
Syntax: Counter
Read only Shows the number of packets that were queued to be sent on a port by the Layer 3 Switch, but then dropped.
snIpxTxFiltPktsCnt
fdry.1.2.1.1.16
Syntax: Counter
Read only The number of packets that were queued to be sent on a port that matched an outbound IPX filter that was configured on the port.
Name, OID, and Syntax Access Description
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IPX Cache TableThe IPX Cache Table contains information about the IPX forwarding cache for the router.
Name, OID, and Syntax Access Description
snIpxCacheTable
fdry.1.2.1.2.1
None The IPX Cache table
snIpxCacheEntry
fdry.1.2.1.2.1.1
None An entry in the IPX Cache table.
snIpxCacheIndex
fdry.1.2.1.2.1.1.1
Syntax: Integer
Read only The table index for a IPX Cache Table entry.
snIpxCacheNetNum
fdry.1.2.1.2.1.1.2
Syntax: NetNumber
Read only Shows the network number containing the destination node.
snIpxCacheNode
fdry.1.2.1.2.1.1.3
Syntax: Physical address
Read only Shows the number of the destination node.
snIpxCacheOutFilter
fdry.1.2.1.2.1.1.4
Syntax: Integer
Read only Shows if an outbound cache filter has been enabled:
• disabled(0)
• enabled(1)
snIpxCacheEncap
fdry.1.2.1.2.1.1.5
Syntax: Integer
Read only Shows the IPX frame encapsulation type.
• EthernetII(1)
• Ethernet8022(2)
• Ethernet8023(3)
• EthernetSnap(4)
snIpxCachePort
fdry.1.2.1.2.1.1.6
Syntax: PortIndex
Read only Shows the number of the port through which the Layer 3 Switch sends IPX traffic to the destination network and node.
snIpxCacheIf
fdry.1.2.1.2.1.1.6
Syntax: InterfaceIndex
Read only Shows the ID of the IPX router interface.
21-4 © 2008 Foundry Networks, Inc. April 2008
IPX
IPX Route TableThe IPX Route Table contains objects for IPX routes.
IPX Server TableThe IPX Server Table presents information about the IPX servers.
Name, OID, and Syntax Access Description
snIpxRouteTable
fdry.1.2.1.3.1
None IPX route table.
snIpxRouteEntry
fdry.1.2.1.3.1.1
None An entry in the IPX route table
snIpxRouteIndex
fdry.1.2.1.3.1.1.1
Syntax: Integer
Read only The table index for a IPX route entry.
snIpxDestNetNum
fdry.1.2.1.3.1.1.2
Syntax: Octet string
Read only Shows the destination network number. A value of all zeros indicates that any destination network number is accepted.
snIpxFwdRouterNode
fdry.1.2.1.3.1.1.3
Syntax: Physical address
Read only Shows the MAC address of the next hop IPX router.
snIpxDestHopCnts
fdry.1.2.1.3.1.1.4
Syntax: Integer
Read only Shows the number of hops to reach the destination.
snIpxRouteMetric
fdry.1.2.1.3.1.1.5
Syntax: Integer
Read only Shows the metric for the next hop router.
snIpxDestPort
fdry.1.2.1.3.1.1.6
Syntax: Integer
Read only Shows the destination port.
Name, OID, and Syntax Access Description
snIpxServerTable
fdry.1.2.1.4.1
None IPX Server table.
snIpxServerEntry
fdry.1.2.1.4.1.1
None An entry in the IPX Server table.
April 2008 © 2008 Foundry Networks, Inc. 21-5
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IPX Forward Filter TableThe following table defines forward filters, which controls the access of remote IPX clients to a a server with restricted access.
snIpxServerIndex
fdry.1.2.1.4.1.1.1
Syntax: Integer
Read only The table index for a IPX Server entry.
snIpxServerType
fdry.1.2.1.4.1.1.2
Syntax: Integer
Read only Shows the IPX server type.
snIpxServerNetNum
fdry.1.2.1.4.1.1.3
Syntax: NetNumber
Read only Shows the IPX server network number.
snIpxServerNode
fdry.1.2.1.4.1.1.4
Syntax: Physical address
Read only Shows the IPX server node number.
snIpxServerSocket
fdry.1.2.1.4.1.1.5
Syntax: Integer
Read only Shows the IPX server socket number.
snIpxServerHopCnts
fdry.1.2.1.4.1.1.6
Syntax: Integer
Read only Shows the IPX number of intervening networks to reach the server.
snIpxServerName
fdry.1.2.1.4.1.1.7
Syntax: Octet string
Read only Shows the IPX server name. There can be up to 47 octets in this object.
Name, OID, and Syntax Access Description
snIpxFwdFilterTable
fdry.1.2.1.5.1
None IPX Forward Filter Table
snIpxFwdFilterEntry
fdry.1.2.1.5.1.1
None An entry in the IPX Forward Filter Table.
snIpxFwdFilterId
fdry.1.2.1.5.1.1.1
Syntax: Integer
Read only The filter ID for a filter entry.
Name, OID, and Syntax Access Description
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IPX
snIpxFwdFilterAction
fdry.1.2.1.5.1.1.2
Syntax: Integer
Read-write
Shows what action to take if the IPX packet matches this filter:
• deny(0)
• permit(1)
snIpxFwdFilterSocket
fdry.1.2.1.5.1.1.3
Syntax: Integer
Read-write
Indicates the IPX Forward Filter Socket Number.
snIpxFwdFilterSrcNet
fdry.1.2.1.5.1.1.4
Syntax: NetNumber
Read-write
Indicates the source network number.
snIpxFwdFilterSrcNode
fdry.1.2.1.5.1.1.5
Syntax: Physical address
Read-write
Indicates the source node number.
snIpxFwdFilterDestNet
fdry.1.2.1.5.1.1.6
Syntax: NetNumber
Read-write
Indicates the destination network number.
snIpxFwdFilterDestNode
fdry.1.2.1.5.1.1.7
Syntax: Physical address
Read-write
Indicates the destination node number.
snIpxFwdFilterRowStatus
fdry.1.2.1.5.1.1.8
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 21-7
Foundry Management Information Base Reference
IPX RIP Filter TableThe following table allows you to define filters that a router uses to block RIP routes being advertised to other parts of the network.
Name, OID, and Syntax Access Description
snIpxRipFilterTable
fdry.1.2.1.6.1
None IPX RIP Filter table.
snIpxRipFilterEntry
fdry.1.2.1.6.1.1
None An entry in the IPX RIP Filter table.
snIpxRipFilterId
fdry.1.2.1.6.1.1.1
Syntax: Integer
Read only The ID for an entry.
snIpxRipFilterAction
fdry.1.2.1.6.1.1.2
Syntax: Integer
Read-write
Shows what action to take if the IPX packet matches this filter:
• deny(0)
• permit(1)
snIpxRipFilterNet
fdry.1.2.1.6.1.1.3
Syntax: NetNumber
Read-write
Indicates the IPX RIP filter network number.
snIpxRipFilterMask
fdry.1.2.1.6.1.1.4
Syntax: NetNumber
Read-write
Indicates the IPX RIP filter network/subnet mask.
snIpxRipFilterRowStatus
fdry.1.2.1.6.1.1.5
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
21-8 © 2008 Foundry Networks, Inc. April 2008
IPX
IPX SAP Filter Table The following table allows you to define filters that a router uses to block SAP routes being advertised to other parts of the network.
Name, OID, and Syntax Access Description
snIpxSapFilterTable
fdry.1.2.1.7.1
None IPX SAP Filter Table.
snIpxSapFilterEntry
fdry.1.2.1.7.1.1
None An entry in the IPX SAP Filter Table.
snIpxSapFilterId
fdry.1.2.1.7.1.1.1
Syntax: Integer
Read only The filter ID for a filter entry.
snIpxSapFilterAction
fdry.1.2.1.7.1.1.2
Syntax: Integer
Read-write
Determines what action to take if the IPX packet matches this filter:
• deny(0)
• permit(1)
snIpxSapFilterType
fdry.1.2.1.7.1.1.3
Syntax: Integer
Read-write
Identifies the IPX SAP filter type to be matched.
snIpxSapFilterName
fdry.1.2.1.7.1.1.4
Syntax: Octet string
Read-write
Identifies the IPX SAP filter Name.
Valid values: Up to 47 octets.
snIpxSapFilterRowStatus
fdry.1.2.1.7.1.1.5
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
April 2008 © 2008 Foundry Networks, Inc. 21-9
Foundry Management Information Base Reference
IPX IF Forward Access Table
IPX IF RIP Access Table
Name, OID, and Syntax Access Description
snIpxIfFwdAccessTable
fdry.1.2.1.8.1
None IPX Interface (IF) Forward Access Table
snIpxIfFwdAccessEntry
fdry.1.2.1.8.1.1
None An entry in the IPX (IF) Forward Access Table
snIpxIfFwdAccessPort
fdry.1.2.1.8.1.1.1
Syntax: Integer
Read only The IPX interface to which the Forward Filter applies.
snIpxIfFwdAccessDir
fdry.1.2.1.8.1.1.2
Syntax: Integer
Read only Shows the direction of packets:
• in(1)
• out(2)
snIpxIfFwdAccessFilterList
fdry.1.2.1.8.1.1.3
Syntax: Octet string
Read-write
An IPX IF Forward Filter List. There can be up to 32 octets in this object.
snIpxIfFwdAccessRowStatus
fdry.1.2.1.8.1.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snIpxIfRipAccessTable
fdry.1.2.1.9.1
None IPX IF RIP Access Table
snIpxIfRipAccessEntry
fdry.1.2.1.9.1.1
None An entry in the IPX IF RIP Access Table
21-10 © 2008 Foundry Networks, Inc. April 2008
IPX
IPX IF SAP Access Table
snIpxIfRipAccessPort
fdry.1.2.1.9.1.1.1
Read only The IPX interface to which the RIP Filter applies.
snIpxIfRipAccessDir
fdry.1.2.1.9.1.1.2
Read only Shows the direction of packets:
• in(1)
• out(2)
snIpxIfRipAccessFilterList
fdry.1.2.1.9.1.1.3
Read-write
An IPX IF RIP Access Filter List.
snIpxIfRipAccessRowStatus
fdry.1.2.1.9.1.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snIpxIfSapAccessTable
fdry.1.2.1.10.1
None IPX IF SAP Access Table
snIpxIfSapAccessEntry
fdry.1.2.1.10.1.1
None An entry in the IPX IF SAP Access Table
snIpxIfSapAccessPort
fdry.1.2.1.10.1.1.1
Syntax: Integer
Read only The IPX interface to which the SAP Filter applies.
snIpxIfSapAccessDir
fdry.1.2.1.10.1.1.2
Syntax: Integer
Read only Shows the direction of packets:
• in(1)
• out(2)
snIpxIfSapAccessFilterList
fdry.1.2.1.10.1.1.3
Syntax: Octet string
Read-write
An IPX IF SAP Access Filter List. There can be up to 32 octets in this object.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 21-11
Foundry Management Information Base Reference
IPX Port Address Table
snIpxIfSapAccessRowStatus
fdry.1.2.1.10.1.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snIpxPortAddrTable
fdry.1.2.1.11.1
None IPX Port Address Table
snIpxPortAddrEntry
fdry.1.2.1.11.1.1
None An entry in the IPX Port Address Table
snIpxPortAddrPort
fdry.1.2.1.11.1.1.1
Syntax: PortIndex
Read only The port index for port address entry.
snIpxPortAddrEncap
fdry.1.2.1.11.1.1.2
Syntax: Integer
Read only Shows the IPX frame encapsulation type.
• Ethernet8022(1)
• Ethernet8023(2)
• EthernetII(3)
• EthernetSnap(4)
Each network number must be assigned a unique frame type; otherwise, an SNMP-SET error will be returned.
snIpxPortAddrNetNum
fdry.1.2.1.11.1.1.3
Syntax: NetNumber
Read-write
An unique network number for the IPX interface port.
Name, OID, and Syntax Access Description
21-12 © 2008 Foundry Networks, Inc. April 2008
IPX
IPX Port Counters Tables
snIpxPortAddrRowStatus
fdry.1.2.1.11.1.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snIpxPortAddrNetBiosFilterMode
fdry.1.2.1.11.1.1.5
Syntax: Integer
Read-write
Shows the status of the NetBios filter mode for each port address.
• disabled(0)
• enabled(1)
Name, OID, and Syntax Access Description
snIpxPortCountersTable
fdry.1.2.1.12.1
None IPX Port Counters Table
snIpxPortCountersEntry
fdry.1.2.1.12.1.1
None An entry in the IPX Port Counters Table
snIpxPortCountersPort
fdry.1.2.1.12.1.1.1
Syntax: PortIndex
Read only The port index for an entry in the table.
snIpxPortCountersRcvPktsCnt
fdry.1.2.1.12.1.1.2
Syntax: Counter
Read only IPX incoming packets counter for the interface.
snIpxPortCountersTxPktsCnt
fdry.1.2.1.12.1.1.3
Syntax: Counter
Read only IPX Outgoing packets counter for the interface.
snIpxPortCountersFwdPktsCnt
fdry.1.2.1.12.1.1.4
Syntax: Counter
Read only IPX forwarding packets counter for the interface.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 21-13
Foundry Management Information Base Reference
snIpxPortCountersRcvDropPktsCnt
fdry.1.2.1.12.1.1.5
Syntax: Counter
Read only IPX receiving drop packets counter for the interface.
snIpxPortCountersTxDropPktsCnt
fdry.1.2.1.12.1.1.6
Syntax: Counter
Read only IPX transmitting drop packets counter for the interface.
snIpxPortCountersRcvFiltPktsCnt
fdry.1.2.1.12.1.1.7
Syntax: Counter
Read only IPX receiving filter packets counter for the interface.
snIpxPortCountersTxFiltPktsCnt
fdry.1.2.1.12.1.1.8
Syntax: Counter
Read only IPX transmitting filter packets counter for the interface.
Name, OID, and Syntax Access Description
21-14 © 2008 Foundry Networks, Inc. April 2008
Chapter 22AppleTalk
This section contains objects for AppleTalk. The AppleTalk feature is available in Layer 3 Switches. For details on AppleTalk support in Foundry devices, refer to the Foundry Enterprise Configuration and Management Guide.
This chapter contains the following sections:
• “AppleTalk General Group” on page 22-2
• “AppleTalk Socket Priority Table” on page 22-5
• “AppleTalk Port Zone Filter Table” on page 22-5
• “AppleTalk Port Table” on page 22-6
• “AppleTalk Forwarding Cache Table” on page 22-8
• “AppleTalk Zone Table” on page 22-9
• “AppleTalk Additional Zone Filter Table” on page 22-9
NOTE: Apple Talk MIBs are not supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
April 2008 © 2008 Foundry Networks, Inc. 22-1
Foundry Management Information Base Reference
AppleTalk General Group
Name, OID, and Syntax Access Description
snRtATRoutingEnable
fdry.1.2.10.1.1
Syntax: Integer
Read-write
Indicates if AppleTalk routing functions are enabled on this device:
• disabled(0)
• enabled(1)
snRtATClearArpCache
fdry.1.2.10.1.2
Syntax: ClearStatus
Read-write
Indicates if the cache will be cleared:
• normal(0) – Data in AppleTalk ARP cache table will not be cleared.
• clear(1) – Data in AppleTalk ARP cache table will be cleared.
snRtATClearFwdCache
fdry.1.2.10.1.3
Syntax: ClearStatus
Read-write
Indicates if all learned data from non-local networks that is currently in the AppleTalk forward cache table will be cleared:
• normal(0) – Data will not be cleared.
• clear(1) – Data will be cleared.
snRtATClearRoute
fdry.1.2.10.1.4
Syntax: ClearStatus
Read-write
Indicates if all learned routes and zones (non-local routes and zones) that currently resident in the AppleTalk routing table and the AppleTalk route table will be cleared.
• normal(0) – Data will not be cleared.
• clear(1) – Data will be cleared.
snRtATClearTrafficCounters
fdry.1.2.10.1.5
Syntax: ClearStatus
Read-write
Indicates if AppleTalk RTMP, ZIP, AEP, DDP, and AARP statistics counters will be cleared.
• normal(0) – Counters will not be cleared.
• clear(1) – Counters will be cleared.
snRtATArpRetransmitCount
fdry.1.2.10.1.6
Syntax: Integer
Read-write
Indicates the maximum number of times that a packet will be sent out for ARP cache informational updates. The packet is sent out until the information is received or the maximum amount defined has been reached.
Valid values: 1 – 10
Default: 2
snRtATArpRetransmitInterval
fdry.1.2.10.1.7
Syntax: Integer
Read-write
The number of seconds the device waits for an AppleTalk ARP response before sending out the next ARP packet.
Valid values: 1 – 120 seconds
Default: 1 second
22-2 © 2008 Foundry Networks, Inc. April 2008
AppleTalk
snRtATGleanPacketsEnable
fdry.1.2.10.1.8
Syntax: Integer
Read-write
Indicates if the AppleTalk glean packets function is enabled on this device:
• disabled(0)
• enabled(1)
If enabled, the device tries to learn the MAC address from the packet instead of sending out an ARP request.
Default: disabled(0)
snRtATRtmpUpdateInterval
fdry.1.2.10.1.9
Syntax: Integer
Read-write
Indicates how often the device sends RTMP updates on AppleTalk interfaces.
Valid values: 1 – 3600 seconds.
Default: 10 seconds.
snRtATZipQueryInterval
fdry.1.2.10.1.10
Syntax: Integer
Read-write
Indicates how often the device transmits a ZIP query.
Valid values: 1 – 1000 seconds
Default: 10 seconds
snRtATInRtmpPkts
fdry.1.2.10.1.11
Syntax: Counter
Read only Shows the total number of RTMP packets received by this device.
snRtATOutRtmpPkts
fdry.1.2.10.1.12
Syntax: Counter
Read only Shows the total number of RTMP packets that were transmitted by this device.
snRtATFilteredRtmpPkts
fdry.1.2.10.1.13
Syntax: Counter
Read only Shows the total number of RTMP packets that were filtered by this device.
snRtATInZipPkts
fdry.1.2.10.1.14
Syntax: Counter
Read only Shows the total number of ZIP packets that were received by this device.
snRtATOutZipPkts
fdry.1.2.10.1.15
Syntax: Counter
Read only Shows the total number of ZIP packets that were transmitted by this device.
snRtATInZipGZLPkts
fdry.1.2.10.1.16
Syntax: Counter
Read only Shows the total number of ZIP get zone list packets that where received by this device.
snRtATOutZipGZLPkts
fdry.1.2.10.1.17
Syntax: Counter
Read only Shows the total number of ZIP get zone list packets that were transmitted by this device.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 22-3
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snRtATInZipNetInfoPkts
fdry.1.2.10.1.18
Syntax: Counter
Read only Shows the total number of ZIP network information packets that were received by this device.
snRtATOutZipNetInfoPkts
fdry.1.2.10.1.19
Syntax: Counter
Read only Shows the total number of ZIP network information packets that were transmitted by this device.
snRtATInDdpPkts
fdry.1.2.10.1.20
Syntax: Counter
Read only Shows the total number of DDP datagrams that were received by this device.
snRtATOutDdpPkts
fdry.1.2.10.1.21
Syntax: Counter
Read only Shows the total number of DDP datagrams that were transmitted by this device.
snRtATForwardedDdpPkts
fdry.1.2.10.1.22
Syntax: Counter
Read only Shows the number of input DDP datagrams whose DDP final destination was not this device. The device attempted to forward the datagrams to that final destination.
snRtATInDeliveredDdpPkts
fdry.1.2.10.1.23
Syntax: Counter
Read only Shows the total number of input DDP datagrams whose final DDP destination is this device.
snRtATDroppedNoRouteDdpPkts
fdry.1.2.10.1.24
Syntax: Counter
Read only Shows the total number of DDP datagrams dropped because this device could not find a route to their final destination.
snRtATDroppedBadHopCountsDdpPkts
fdry.1.2.10.1.25
Syntax: Counter
Read only Shows the total number of input DDP datagrams that were dropped because this device was not their final destination and their hop count exceeded 15.
snRtATDroppedOtherReasonsDdpPkts
fdry.1.2.10.1.26
Syntax: Counter
Read only Shows the total number of DDP datagrams dropped for various reasons. For example, the device ran out or resources so the datagrams were dropped.
snRtATInAarpPkts
fdry.1.2.10.1.27
Syntax: Counter
Read only Shows the total number of AppleTalk ARP packets received by this device.
snRtATOutAarpPkts
fdry.1.2.10.1.28
Syntax: Counter
Read only Shows the total number of AppleTalk ARP packets that were transmitted by this device.
Name, OID, and Syntax Access Description
22-4 © 2008 Foundry Networks, Inc. April 2008
AppleTalk
AppleTalk Socket Priority TableThe AppleTalk Socket Priority Table shows the priority level assigned to each QoS socket. By default, all AppleTalk sockets are in the best effort queue (Chassis devices) or the normal queue (Stackable devices).
AppleTalk Port Zone Filter TableThe AppleTalk Zone Filter Table shows if access to network zones is permitted or denied.
Name, OID, and Syntax Access Description
snRtATSocketPriorityTable
fdry.1.2.10.2
None AppleTalk Socket Priority Table.
snRtATSocketPriorityEntry
fdry.1.2.10.2.1
None An entry in the AppleTalk Socket Priority Table.
snRtATSocketPrioritySocket
fdry.1.2.10.2.1.1
Syntax: Integer
Read only The socket number for an entry. There can be up to 254 entries.
snRtATSocketPriorityPriority
fdry.1.2.10.2.1.2
Syntax: Integer
Read-write
Indicates the QoS priority for the socket.
The priority level for a socket that applies to stackable devices are:
• low(0) – Low priority
• high(1) – High priority
The priority level for a socket that applies to Chassis devices are:
• level0(0)
• level1(1)
• level2(2)
• level3(3),
• level4(4)
• level5(5)
• level6(6)
• level7(7)
Name, OID, and Syntax Access Description
snRtATPortZoneFilterTable
fdry.1.2.10.3
None AppleTalk Port Zone Filter Table.
snRtATPortZoneFilterEntry
fdry.1.2.10.3.1
None An entry in the AppleTalk Port Zone Filter Table.
April 2008 © 2008 Foundry Networks, Inc. 22-5
Foundry Management Information Base Reference
AppleTalk Port TableThe AppleTalk Port Table defines how long a MAC address learned by a port through ARP remains valid.
The device resets the timer to zero each time the ARP entry is refreshed and removes the entry if the timer reaches the ARP age.
snRtATPortZoneFilterPortIndex
fdry.1.2.10.3.1.1
Syntax: PortIndex
Read only Shows the port index for a zone filter entry.
snRtATPortZoneFilterZone
fdry.1.2.10.3.1.2
Syntax: Display string
Read only Shows the zone name granted for this filter:
• 0 to 32 octets of AppleTalk
• ASCII if outside of AppleTalk
snRtATPortZoneFilterAction
fdry.1.2.10.3.1.3
Syntax: Integer
Read-write
Indicates what the device will do with the AppleTalk packet to take if it matches this filter.
• deny(0)
• permit(1)
snRtATPortZoneFilterRtmpEnable
fdry.1.2.10.3.1.4
Syntax: Integer
Read-write
Indicates if Routing Table Maintenance Protocol (RMTP) filtering is enabled on this device. RMTP filtering provides the zone filtering capability that allows devices to filter on a network. When this filter is enabled on an interface, the denied network numbers are removed from the RTMP packet before the packet is transmitted out of the interface.
• disabled(0)
• enabled(1)
snRtATPortZoneFilterRowStatus
fdry.1.2.10.3.1.5
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
22-6 © 2008 Foundry Networks, Inc. April 2008
AppleTalk
ARP age is managed on an individual port basis. However, when you enter an ARP age value for a port and apply the change to the running-config file or save the change to the startup-config file, the change is saved as the global setting. If you try to set different values for different ports, the interface does not display an error message. Instead, the most recent value you enter before saving the configuration change becomes the global setting.
Name, OID, and Syntax Access Description
snRtATPortTable
fdry.1.2.10.4
None The AppleTalk Port Table
snRtATPortEntry
fdry.1.2.10.4.1
None An entry in the AppleTalk Port Table
snRtATPortIndex
fdry.1.2.10.4.1.1
Syntax: PortIndex
Read only The port index for port table entry.
snRtATPortArpAge
fdry.1.2.10.4.1.2
Syntax: Integer
Read-write
Shows the number of minutes an ARP entry can be valid without relearning. This can be from 0 – 240 minutes.
Default: 10 minutes. If this is set to 0, then the ARP entry will always relearn.
snRtATPortState
fdry.1.2.10.4.1.3
Syntax: Integer
Read only Shows the state of this port:
• other(1)
• down(2)
• up(3)
snRtATPortSeedRouter
fdry.1.2.10.4.1.4
Syntax: Integer
Read only Shows if this port is a seed or non-seed router:
• other(1)
• seedRouter(2)
• nonSeedRouter(3)
snRtATPortOperationMode
fdry.1.2.10.4.1.5
Syntax: Integer
Read only Shows the operational state of this port:
• other(1)
• seedRouter(2)
• nonSeedRouter(3)
• notOperational(4)
• routingDisabled(5)
April 2008 © 2008 Foundry Networks, Inc. 22-7
Foundry Management Information Base Reference
AppleTalk Forwarding Cache TableThe AppleTalk Forwarding Cache Table contains data learned from non-local networks that is currently resident in the AppleTalk cache.
Name, OID, and Syntax Access Description
snRtATFwdCacheTable
fdry.1.2.10.5
None AppleTalk Forwarding Cache Table.
snRtATFwdCacheEntry
fdry.1.2.10.5.1
None An entry in the AppleTalk Forwarding Cache Table.
snRtATFwdCacheIndex
fdry.1.2.10.5.1.1
Syntax: Integer
Read only Shows the table index for a table entry.
snRtATFwdCacheNetAddr
fdry.1.2.10.5.1.2
Syntax: Octet string
Read only Shows the AppleTalk network address of a station.
snRtATFwdCacheMacAddr
fdry.1.2.10.5.1.3
Syntax: Octet string
Read only Shows the MAC address of an AppleTalk station. This object has six octets.
snRtATFwdCacheNextHop
fdry.1.2.10.5.1.4
Syntax: Integer
Read only Shows the network address of the router in the next hop.
snRtATFwdCacheOutgoingPort
fdry.1.2.10.5.1.5
Syntax: Integer
Read only Shows the outgoing port through which the packets will be forwarded. If set to zero, then no outgoing port has been defined.
snRtATFwdCacheType
fdry.1.2.10.5.1.6
Syntax: Integer
Read only Shows the type of AppleTalk forwarding cache type:
• dynamic(1)
• permanent(2)
snRtATFwdCacheAction
fdry.1.2.10.5.1.7
Syntax: Integer
Read only Determines what the device will do if a match if found:
• other(1)
• forward(2)
• forUs(3)
• waitForArp(4)
• dropPacket(5)
snRtATFwdCacheVLanId
fdry.1.2.10.5.1.8
Syntax: Integer
Read only Shows the ID of the VLAN associated with this entry. If set to zero, then no VLAN is associated with this entry.
22-8 © 2008 Foundry Networks, Inc. April 2008
AppleTalk
AppleTalk Zone TableThe AppleTalk Zone Table shows the network numbers and zones learned on the network.
AppleTalk Additional Zone Filter TableThe AppleTalk Additional Zone Filter Table contains information about zones that do not match any zones defined in the “AppleTalk Zone Table” on page 22-9.
Name, OID, and Syntax Access Description
snRtATZoneTable
fdry.1.2.10.6
None AppleTalk Zone Table
snRtATZoneEntry
fdry.1.2.10.6.1
None An entry in the AppleTalk Zone Table
snRtATZoneIndex
fdry.1.2.10.6.1.1
Syntax: Integer
Read only Shows the table index for an AppleTalk zone table entry.
snRtATZoneNetStart
fdry.1.2.10.6.1.2
Syntax: ATNetworkNumber
Read only Shows the first AppleTalk network address in the range under this zone name. (Refer to the “snRtATZoneName” object.)
snRtATZoneNetEnd
fdry.1.2.10.6.1.3
Syntax: ATNetworkNumber
Read only Shows the last AppleTalk network addresses in the range under this zone name.
snRtATZoneName
fdry.1.2.10.6.1.4
Syntax: Display string
Read only Shows the zone’s name. There can be up – 32 characters in this object.
Name, OID, and Syntax Access Description
snRtATAddZoneFilterTable
fdry.1.2.10.7
None The AppleTalk Additional Zone Filter Table.
snRtATAddZoneFilterEntry
fdry.1.2.10.7.1
None An entry in the AppleTalk Additional Zone Filter Table.
snRtATAddZoneFilterPortIndex
fdry.1.2.10.7.1.1
Syntax: PortIndex
Read only Shows the port index for additional zone filter table entry.
April 2008 © 2008 Foundry Networks, Inc. 22-9
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snRtATAddZoneFilterAction
fdry.1.2.10.7.1.2
Syntax: Integer
Read-write
Indicates what the device will do when a match is found:
• deny(0)
• permit(1)
snRtATAddZoneFilterRtmpEnable
fdry.1.2.10.7.1.3
Syntax: Integer
Read-write
Indicates if RTMP filtering on additional zone is enabled on this device:
• disabled(0)
• enabled(1)
Name, OID, and Syntax Access Description
22-10 © 2008 Foundry Networks, Inc. April 2008
Chapter 23Multiprotocol Label Switching
This chapter presents SNMP MIB objects for the Multiprotocol Label Switching (MPLS) feature that is supported on the NetIron IMR 640 Router. These objects are available in the NetIron IMR 640 Router software release 02.1.00 and later. Refer to the configuration guide for the Foundry device for details about the MPLS feature.
These objects are also supported on the NetIron XMR Series routers and the NetIron MLX routers.
MPLS ObjectsThe following are the general MPLS MIB objects.
MPLS LSP TableThe following table contains objects for the MPLS LSPs.
Name, OID, and Syntax Access Description
mplsVersion
fdry.1.2.15.1.1.1
Syntax: Unsigned32
Read only MPLS version number.
mplsConfiguredLsps
fdry.1.2.15.1.2.1
Syntax: Unsigned32
Read Only Number of configured LSPs. This is calculated by adding the number of RSVPs and staticly configured Label-switched paths (LSPs).
mplsActiveLsps
fdry.1.2.15.1.2.2
Syntax: Unsigned32
Read Only Number of active LSPs. This is calculated by adding the number of RSVPs, LDPs, and staticly configured LSPs.
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Name, OID, and Syntax Access Description
mplsLspTable
fdry.1.2.15.1.2.3
N/A The MPLS LSP Table
mplsLspEntry
fdry.1.2.15.1.2.3.1
N/A An entry in the MPLS LSP Tabel
mplsLspSignalingProto
fdry.1.2.15.1.2.3.1.1
Syntax: Integer
N/A MPLS signaling protocol used by this LSP:
• ldp(1)
• rsvp(2)
mplsLspIndex
fdry.1.2.15.1.2.3.1.2
Syntax: Unsigned32
N/A The unique index of the LSP in the system for a given signaling protocol.
mplsLspName
fdry.1.2.15.1.2.3.1.3
Syntax: Displaystring
Read only Name of the Label Switched Path.
mplsLspState
fdry.1.2.15.1.2.3.1.4
Syntax: Integer
Read only The operational state of the LSP:
• unknown(1)
• up(2)
• down(3)
mplsLspPackets
fdry.1.2.15.1.2.3.1.5
Syntax: Counter64
Read only The number of packets that have been forwarded over the current LSP active path.
mplsLspAge
fdry.1.2.15.1.2.3.1.6
Syntax: TimeStamp
Read only The age, since creation of this LSP in 10-millisecond periods.
mplsLspTimeUp
fdry.1.2.15.1.2.3.1.7
Syntax: TimeStamp
Read only The total time in 10-millisecond units when this LSP has been operational. Calculate the percentage up time as follows:
mplsLspTimeUp / mplsLspAge x 100 %
mplsLspPrimaryTimeUp
fdry.1.2.15.1.2.3.1.8
Syntax: TimeStamp
Read only The total time in 10-millisecond units that this LSP's primary path has been operational. The percentage contribution of the primary path to the operational time is calculated using the following equation:
mplsLspPrimaryTimeUp / mplsLspTimeUp x 100 %
mplsLspTransitions
fdry.1.2.15.1.2.3.1.9
Syntax: TimeStamp
Read only The number of times this LSP ’s state transitioned from up to down and down to up.
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Multiprotocol Label Switching
mplsLspLastTransition
fdry.1.2.15.1.2.3.1.10
Syntax: IpAddress
Read only The time in 10-millisecond units since the last transition occurred on this LSP.
mplsLspFrom
fdry.1.2.15.1.2.3.1.11
Syntax: IpAddress
Read only Source IP address of this LSP.
mplsLspTo
fdry.1.2.15.1.2.3.1.12
Read only Destination IP address of this LSP.
mplsPathName
fdry.1.2.15.1.2.3.1.13
Syntax: DisplayString
Read only The name of the active path for this LSP. If there is no name, this field should be empty and all the fields in this table do not apply.
mplsPathType
fdry.1.2.15.1.2.3.1.14
Syntax: Integer
Read only The type of path that is active. This field is meaningless unless mplsPathName contains a value. Paths can be:
• other(1)
• primary(2)
• standby(3)
• secondary(4)
Name, OID, and Syntax Access Description
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23-4 © 2008 Foundry Networks, Inc. April 2008
Chapter 24Packet Over SONET for the
NetIron XMR and NetIron MLX
This chapter presents the MIB objects for Packet Over Sonet (POS), a feature supported on the Multi-Service IronWare software release 03.4.00 NetIron XMR Series and NetIron MLX Series devices. The following MIB objects are related to the POS support on these devices:
• snSwIfInfoTable. The entire table is supported and new values have been added for snSwIfInfoSpeed and snSwIfInfoMediaType. See the “Switch Port Information Group” on page 11-1
• ifTable. See “RFC 1213: Management Information Base (MIB-II)” on page 3-4.
• ifMIB. See “RFC 2233: The Interfaces Group MIB using SMIv2” on page 3-10.
• ifXTable. See “RFC 2233: The Interfaces Group MIB using SMIv2” on page 3-10.
• snIfIndexLookupTable. See “Interface Index Lookup Table” on page 11-14.
• RFC 3592 SDH/SONET MIB. See “RFC 3592 SDH/SONET MIB” on page 24-1.
• POS MIB Info Table - See “POS MIB Info Table” on page 24-2.
• POS PPP Group - See “POS PPP Group” on page 24-4.
• POS cHDLC Group - See “POS cHDLC Group” on page 24-5.
RFC 3592 SDH/SONET MIBThe standard SDH/SONET MIB (RFC 3592) is supported with the following exceptions:
1. No VT related objects are supported.
• SonetVTCurrentTable
• SonetVTIntervalTable
• SonetFarEndVTCurrentTable
• SonetFarEndVTIntervalTable
2. The following MIB objects are read-write in the standard MIB, but are read-only in this release.
• sonetMediumLineCoding - Always returns sonetMediumNRZ
• sonetMediumLineType - Always returns sonetMultiMode
• sonetMediumCircuitIdentifier - Always returns the physical address of the interface (same as ifPhysAddress)
• sonetSESthresholdSet - Always returns other(1)
April 2008 © 2008 Foundry Networks, Inc. 24-1
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POS MIB Info TableThe POS Session Table presents information about the POS session.
Name, OID, and Syntax Access Description
snPOSInfo2Table
fdry.1.2.14.1.2
None This object describes the POS MIB Info Table.
snPOSInfo2Entry
fdry.1.2.14.1.2.1
None This object describes a POS MIB Info entry.
snPOSInfo2Clock
fdry.1.2.14.1.2.1.1
Syntax: Integer
Read-write This object describes the clock source for the POS Interface.
• internal(1) - internal source.
• line(2) - clocking is derived from the line.
Default Value: internal(1)
snPOSInfo2ScrambleATM
fdry.1.2.14.1.2.1.2
Syntax: POSStatus
Read-write ATM style scrambling for the POS interface.
• disabled(0) - scrambling is disabled.
• enabled(1) - scrambling is enabled.
Default Value: disabled(0)
snPOSInfo2CRC
fdry.1.2.14.1.2.1.3
Syntax: Integer
Read-write Length of Cyclic Redundancy Check (CRC) on the POS interface.
• crc32bits(1)- 32 bits
• crc16bits(2) - 16 buts
Default Value: crc32bits(1)
snPOSInfo2KeepAlive
fdry.1.2.14.1.2.1.4
Syntax: Unsigned32 (0...65535)
Read-write This object describes the keepalive timer for the POS interface in seconds.
Default: 10
snPOSInfo2FlagC2
fdry.1.2.14.1.2.1.5
Syntax: Unsigned32 (0...255)
Read-write The C2 flag.
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Packet Over SONET for the NetIron XMR and NetIron MLX
snPOSInfo2SSM
fdry.1.2.14.1.2.1.6
Syntax: Integer
Read-write The Synchronization Status Message (SSM) is sent over the SONET/SDH line to tell the other end about the quality of the clock being sent over the line:
• t1-sonet-primary-reference-source(1)- SONET Primary Reference Source
• t1-sonet-traceability-unknown(2) - SONET Traceability Unknown
• t1-sonet-stratum2-traceable(3) - SONET Stratum 2 Traceable
• t1-sonet-transit-node-clock(4) - SONET Transit Node Clock
• t1-sonet-stratum3e-traceable(5) - SONET Stratum 3e Traceable
• t1-sonet-stratum3-traceable(6) - SONET Stratum 3 Traceable
• t1-sonet-min-clock-traceable(7) - SONET Minimum Clock Traceable
• t1-sonet-dus(8)- SONET Do not Use for Synchronization
• e1-sdh-traceability-unknown(9) - SDH Traceability Unknown
• e1-sdh-ssm-transit-node-clock-g812(10) - SDH Transit Node Clock G812
• e1-sdh-dus(11) - SDH Do not Use for Synchronization
• e1-sdh-ssm-primary-reference-clock-g811(12) - SDH Primary Reference Clock G811
• e1-sdh-ssm-local-g812(13) - SDH Local G812
• e1-sdh-ssm-sync-equipment-timing-source(14) - SDH Synchronization Equipment Timing Source
Default: t1-sonet-traceability-unknown(2)
snPOSInfo2Encapsulation
fdry.1.2.14.1.2.1.7
Syntax: Integer
Read-write Layer 2 encapsulation on the POS interface.
• ppp(1) - Point to Point Protocol (PPP.) Refer to “POS PPP Group” on page 24-4 for additional MIB objects.
• chdlc(2) - Cisco High-level Data Link Control (cHDLC). Refer to “POS cHDLC Group” on page 24-5 for additional MIB objects.
snPOSInfo2AlarmMonitoring
fdry.1.2.14.1.2.1.8
Syntax: Integer
Read-write Alarm Monitoring on POS interface.
• off(0) - Alarm Monitoring is off
• on(1) - Alarm Monitoring is on
Default: on(1)
Name, OID, and Syntax Access Description
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POS PPP GroupIf the snPOSInfo2Encapsulation object is set to PPP, the POS PPP table provides information on the states of various control protocols.
snPOSInfo2OverheadJ0ExpectedMessage
fdry.1.2.14.1.2.1.9
Syntax: Octet String (Size (1))
Read-write Overhead J0 Expected Message
snPOSInfo2OverheadJ0TransmitMessage
fdry.1.2.14.1.2.1.10
Syntax: Octet String (Size (1))
Read-write This object Overhead J0 Transmit Message.
snPOSInfo2OverheadJ1ExpectedMessage
fdry.1.2.14.1.2.1.11
Syntax: Octet String (Size (16...64))
Read-write Overhead J1 Expected Message.
snPOSInfo2OverheadJ1MessageLength
fdry.1.2.14.1.2.1.12
Syntax: Integer
Read-write Overhead J1 Length of Message.
• s16(16) - 16 bytes
• s64(64) - 64 bytes
Default Value: s64(64)
snPOSInfo2OverheadJ1TransmitMessage
fdry.1.2.14.1.2.1.13
Syntax: Octet String (Size (16...64))
Read-write Overhead J1 Transmit Message.
Name, OID, and Syntax Access Description
snPOSPPPTable
fdry.1.2.14.1.3
N/A An entry in the snPOSPPPTable indicates the PPP control protocol status on a specified port.
snPOSPPP-LCP
fdry.1.2.14.1.3.1
Syntax: Display string (0..32))
Read only The PPP Link Control Protocol state.
snPOSPPP-IPCP
fdry.1.2.14.1.3.2
Syntax: Display string (0..32))
Read only The PPP IP Control Protocol state.
Name, OID, and Syntax Access Description
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Packet Over SONET for the NetIron XMR and NetIron MLX
POS cHDLC GroupIf the snPOSInfo2Encapsulation object is set to cHDLC, the following provides information on various cHDLC parameters.
snPOSPPP-IPv6CP
fdry.1.2.14.1.3.3
Syntax: Display string (0..32))
Read only The PPP IPv6 Control Protocol state.
snPOSPPP-OSINLCP
fdry.1.2.14.1.3.4
Syntax: Display string (0..32))
Read only The PPP OSI Network Layer Control Protocol state.
snPOSPPP-MPLSCP
fdry.1.2.14.1.3.5
Syntax: Display string (0..32))
Read only The PPP MPLS Control Protocol state.
Name, OID, and Syntax Access Description
snPOScHDLCTable
fdry.1.2.14.1.4
N/A An entry in snPOScHDLCEntry shows the cHDLC information on a specified port.
snPOScHDLCLineState
fdry.1.2.14.1.4.1
Syntax: Integer
Read only The of the cHDLC line:
down (0)
up (1)
unknown (2)
snPOScHDLCInLoopback
fdry.1.2.14.1.4.2
Syntax: Integer
Read only Indicates if cHDLC in loopback is used:
• no (0)
• yes (1)
• unknown (2)
snPOScHDLCMySeq
fdry.1.2.14.1.4.3
Syntax: Unsigned32
Read only The cHDLC my sequence number.
snPOScHDLCMySeqSeen
fdry.1.2.14.1.4.4
Syntax: Unsigned32
Read only The cHDLC my sequence number that is seen
snPOScHDLCPeerSeqSeen
fdry.1.2.14.1.4.5
Syntax: Unsigned32
Read only The cHDLC peer sequence number seen
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 24-5
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snPOScHDLCUniqueSent
fdry.1.2.14.1.4.6
Syntax: Unsigned32
Read only The cHDLC unique sent
snPOScHDLCUniqueReceived
fdry.1.2.14.1.4.7
Syntax: Unsigned32
Read only The cHDLC unique received
Name, OID, and Syntax Access Description
24-6 © 2008 Foundry Networks, Inc. April 2008
Chapter 25Bidirectional Forwarding
This chapter presents the MIB objects for Bidirectional Forwarding (BFD) IETF draft mib version 3 (draft-ietf-bfd-mib-03.mib). Support for this MIB will change as the IETF draft version changes, until the MIB is finalized.
This chapter contains the following sections:
• “BFD Scaler Objects” on page 25-1
• “BFD MIB Session Table” on page 25-2
• “BFD MIB Session Performance Table” on page 25-5
• “BFD MIB Session Mapping Table” on page 25-6
BFD Scaler ObjectsThe BFD Session Mapping Table maps the complex indexing of the BFD sessions to the flat BFDIndex used in the BfdSessionTable.
Name, OID, and Syntax Access Description
bfdAdminStatus
fdry.3.3.1.1.1.1
Syntax: Integer
Read-write The global administrative status of BFD in this router:
• enabled(1) - BFD Process is active on at least one interface
• disabled(2) - BFD is disabled on all interfaces
Default: enabled(1)
bfdSessNotificationsEnable
fdry.3.3.1.1.1.3
Syntax: Unsigned32
Read-only The current version number of the BFD protocol.
Default: 0
bfdSessNotificationsEnable
fdry.3.3.1.1.1.4
Syntax: TruthValue
Read-write Indicates if notification messages are sent when BFD sessions are up and when they are down
• true(1) - Notification messages are sent.
• false(2) - Notifications messages are not sent.
Default: false(2)
April 2008 © 2008 Foundry Networks, Inc. 25-1
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BFD MIB Session TableThe BFD Session Table specifies information about the BFD session.
Name, OID, and Syntax Access Description
bfdSessTable
fdry.3.3.1.1.2
None Describes the BFD sessions.
bfdSessEntry
fdry.3.3.1.1.2.1
None Describes and entry for a BFD session.
bfdSessIndex
fdry.3.3.1.1.2.1.1
Syntax: BfdSessIndexTC
None Contains an index used to represent a unique BFD session on this device.
bfdSessApplicationId
fdry.3.3.1.1.2.1.2
Syntax: Unsigned32
Read-only Contains an index used to indicate a local application which owns or maintains this BFD session. For instance, the MPLS VPN process may maintain a subset of the total number of BFD sessions. This application ID provides a convenient way to segregate sessions by the applications which maintain them.
bfdSessDiscriminator
fdry.3.3.1.1.2.1.3
Syntax: Unsigned32
Read-only Specifies the local discriminator for this BFD session, used to uniquely identify it.
bfdSessRemoteDiscr
fdry.3.3.1.1.2.1.4
Syntax: Unsigned32
Read-only Specifies the session discriminator chosen by the remote system for this BFD session.
bfdSessUdpPort
fdry.3.3.1.1.2.1.5
Syntax: InetPortNumber
Read-only The UDP Port for BFD.
Default: The well-known value for this port.
bfdSessState
fdry.3.3.1.1.2.1.6
Syntax: Integer
Read-only The perceived state of the BFD session.
• adminDown(1)
• down(2)- BFD session is down
• init(3)- BFD session is initializing
• up(4) - BFD session is up
bfdSessRemoteHeardFlag
fdry.3.3.1.1.2.1.7
Syntax: TruthValue
Read-only Status of BFD packet reception from the remote system.
• true(1) - the local device is actively receiving BFD packets from the remote device
• false(0) - either the local device has not received BFD packets recently (within the detection time) or the local device is attempting to tear down the BFD session
25-2 © 2008 Foundry Networks, Inc. April 2008
Bidirectional Forwarding
bfdSessDiag
fdry.3.3.1.1.2.1.8
Syntax: Unsigned32
Accessible-for-notify
A diagnostic code specifying the local system's reason for the last transition of the session from up(1) to some other state.
The following values are applicable in Foundry’s implementation of this MIB object:
• No Diagnostic (1)
• Control Detection Time Expired (2)
• Echo Failed (3)
• Neighbor Signaled Session Down (4)
• Forwarding Plan Reset (5)
• Path Down (6)
• Concatenated Path Down (7)
• Admin Down (8)
• Reverse Concatenated Path Down (9)
Each notification uses one of the following varbinds:
• BfdSessUp - high range value
• bfdSessDown - low range value
bfdSessOperMode
fdry.3.3.1.1.2.1.9
Syntax: Integer
Read-only Specifies current operating mode of the BFD session.
• asyncModeWEchoFun(1)
• asynchModeWOEchoFun(2)
• demandModeWEchoFunction(3)
• demandModeWOEchoFunction(4)
bfdSessDemandModeDesiredFlag
fdry.3.3.1.1.2.1.10
Syntax: TruthValue
Read-only Indicates if the device will use Demand mode:
• true(1)- the device will use Demand mode
• false(0) - the device will use Demand mode
bfdSessEchoFuncModeDesiredFlag
fdry.3.3.1.1.2.1.11
Syntax: TruthValue
Read-only Indicates if the device uses Echo mode:
• true(1)- the device will use Echo mode
• false(0) - the device will use Echo mode
bfdSessControPlanIndepFlag
fdry.3.3.1.1.2.1.12
Syntax: TruthValue
Read-only Indicates if the device can continue to function when there is a disruption of the control plane:
• true(1)- the local system BFD implementation is independent of the control plane
• false(0) - the local system BFD implementation is dependent on the control plane
Name, OID, and Syntax Access Description
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bfdSessAddrType
fdry.3.3.1.1.2.1.13
Syntax: InetAddressType
Read-only The IP address type of the interface associated with this BFD session:
unknown(0) - Allowed only when the outgoing interface is of type point-to-point, or when the BFD session is not associated with a specific interface.
ipv4(1) - IP address is IPv4
ipv6(2) - IP address is IPv4
bfdSessAddr
fdry.3.3.1.1.2.1.14
Syntax: InetAddress
Read-only The IP address of the interface associated with this BFD session.
Also used to enable BFD on a specific interface.
The value is set to zero when BFD session is not associated with a specific interface.
bfdSessDesiredMinTxInterval
fdry.3.3.1.1.2.1.15
Syntax: Unsigned32
Read-only Specifies the minimum interval, in microseconds, that the local system would like to use when transmitting BFD Control packets.
bfdSessReqMinRxInterval
fdry.3.3.1.1.2.1.16
Syntax: Unsigned32
Read-only Specifies the minimum interval, in microseconds, between received BFD Control packets the local system is capable of supporting.
bfdSessReqMinEchoRxInterval
fdry.3.3.1.1.2.1.17
Syntax: BfdInterval
Read-only Specifies the minimum interval, in microseconds, between received BFD Echo packets that this system is capable of supporting.
bfdSessDetectMult
fdry.3.3.1.1.2.1.18
Syntax: Unsigned32
Read-only Specifies the Detect time multiplier.
bfdSessStorType
fdry.3.3.1.1.2.1.19
Syntax: StorageType
Read-only Indicates the storage type for this object. Conceptual rows having the value "permanent" need not allow write-access to any columnar objects in the row.
bfdSessRowStatus
fdry.3.3.1.1.2.1.20
Syntax: RowStatus
Read-only Creates, modifies, or deletes a row in this table. When a row in this table has a row in the active(1) state, no objects in this row can be modified except the bfdSessRowStatus and bfdSessStorageType.
bfdSessAuthPressFlag
fdry.3.3.1.1.2.1.21
Syntax: TruthValue
Read-only Indicates if the device wants the BFD sessions to be authenticated:
• true(1)- BFD sessions will be authenticated
• false(0) - BFD sessions will not be authenticated
Name, OID, and Syntax Access Description
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Bidirectional Forwarding
BFD MIB Session Performance TableThis table specifies the performance counters for BFD sessions.
bfdSessAuthenticationType
fdry.3.3.1.1.2.1.22
Syntax: Integer
Read-only Indicates the authentication type used for this BFD session, if BFD sessions are authenticated:
• simplePassword(1)
• keyedMD5(2)
• meticulousKeyedMD5(3)
• keyedSHA1(4)
• meticulousKeyedSHA1(5)
Name, OID, and Syntax Access Description
bfdSessPerfTable
fdry.3.3.1.1.3
None The BFD Session Performance Table
bfdSessPerfEntry
fdry.3.3.1.1.3.1
None An entry in this table is created by a BFD-enabled node for every BFD Session. bfdCounterDiscontinuityTime is used to indicate potential discontinuity for all counter objects in this table.
bfdSessPerfPktIn
fdry.3.3.1.1.3.1.1
Syntax: Counter32
Read-only The total number of BFD messages received for this BFD session.
bfdSessPerfPktOut
fdry.3.3.1.1.3.1.2
Syntax: Counter32
Read-only The total number of BFD messages sent for this BFD session.
bfdSessPerfUpTime
fdry.3.3.1.1.3.1.3
Syntax: TimeStamp
Read-only The value of sysUpTime on the most recent occasion at which the session came up. If no such up event exists this object contains a zero value.
bfdSessPerfLastSessDownTime
fdry.3.3.1.1.3.1.4
Syntax: TimeStamp
Read-only The value of sysUpTime on the most recent occasion at which the last time communication was lost with the neighbor. If no such down event exist this object contains a zero value.
bfdSessPerfLastCommLostDiag
fdry.3.3.1.1.3.1.5
Syntax: BfdDiag
Read-only The BFD diag code for the last time communication was lost with the neighbor. If no such down event exists this object contains a zero value.
bfdSessPerfSessUpCount
fdry.3.3.1.1.3.1.6
Syntax: Counter32
Read-only The number of times this session has gone into the Up state since the router last rebooted.
Name, OID, and Syntax Access Description
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BFD MIB Session Mapping TableThe BFD Session Mapping Table maps the complex indexing of the BFD sessions to the flat BFDIndex used in the BfdSessionTable.
bfdSessPerfDiscTime
fdry.3.3.1.1.3.1.7
Syntax: TimeStamp
Read-only The value of sysUpTime on the most recent occasion at which any one or more of the session counters suffered a discontinuity. The relevant counters are the specific instances associated with this BFD session of any Counter32 object contained in the BfdSessPerfTable. If no such discontinuities have occurred since the last re-initialization of the local management subsystem, then
this object contains a zero value.
bfdSessPerfPktInHC
fdry.3.3.1.1.3.1.8
Syntax: Counter64
Read-only This value represents the total number of BFD messages received for this BFD session. It MUST be equal to the least significant 32 bits of bfdSessPerfPktIn if bfdSessPerfPktInHC is supported according to the rules spelled out in RFC2863.
bfdSessPerfPktOutHC
fdry.3.3.1.1.3.1.9
Syntax: Counter64
Read-only This value represents the total number of total number of BFD messages transmitted for this BFD session. It MUST be equal to the least significant 32 bits of bfdSessPerfPktIn if bfdSessPerfPktOutHC is supported according to the rules spelled out in RFC2863.
Name, OID, and Syntax Access Description
BfdSessMapTable
fdry.3.3.1.1.4
None The BFD Session Mapping Table
Note: if the value of the bfdSessAddr (an OID) has more that 111 sub-identifiers, then OIDs of column instances in this table will have more than 128 sub-identifiers and cannot be accessed using SNMPv1, SNMPv2c, or SNMPv3.
BfdSessMapEntry
fdry.3.3.1.1.4.1
None The BFD Session Entry describes BFD session that is mapped to this index.
Note: If the value of the mplsInSegmentMapLabelPtrIndex has more that 111 sub-identifiers, then OIDs of column instances in this table will have more than 128 sub-identifiers and cannot be accessed using SNMPv1, SNMPv2c, or SNMPv3.
bfdSessMapBfdIndex
fdry.3.3.1.1.4.1.1
Syntax: Unsigned32
Read-only Specifies the BfdIndex referred to by the indexes of this row. In essence, a mapping is provided between these indexes and the BfdSessTable.
Name, OID, and Syntax Access Description
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Chapter 26Monitoring and Logging
This chapter presents the MIB objects that can be used for monitoring and logging functions. It includes the following sections:
• “CPU Utilization” on page 26-2
• “System CPU Utility Table” on page 26-3
• “Dynamic Memory Utilization” on page 26-4
• “System DRAM Information Group”
• “ARP Tables” on page 26-5
• “sFlow” on page 26-9
• “NetFlow Export” on page 26-10
• “System Logging” on page 26-14
• “CAM Statistics” on page 26-19
• “CAM Usage Tables” on page 26-23
• “System Process Utilization Table” on page 26-29
• “Objects for Debugging” on page 26-30
• “Support for Optical Monitoring” on page 26-31
Usage Notes on CPU Utilization and System CPU Utility TableThere are 3 groups of CPU utilization MIB objects: Group A, B, and C
Group A consists of the following object and should not be used:
The object in this group can display management module CPU utilization. The data it displays is from the last time that this object was read. If there is more than one management stations reading the object, conflict will occur because every read resets the CPU utilization until the next read. Thus, it is recommend customer that this object is not used.
fdry.1.1.2.1.35 snAgGblCpuUtilData
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Group B consists of the following objects
Group B was created to resolve the multi-management stations issue of snAgGblCpuUtilData. These 3 objects are time based. However, they only work for the management CPU utilization.
Also, if the snAgentCpuUtilTable is supported on a device, use that object instead of snAgGblCpuUtil1SecAvg, snAgGblCpuUtil5SecAvg, and snAgGblCpuUtil1MinAvg.
Group C consists of the snAgentCpu table:
The snAgentCpu table was created because switch families evolved from a single-CPU system to a multi-CPU system and CPU utilization information for to non-management CPUs were required.
CPU UtilizationThe following objects monitor CPU utilization in all Foundry devices. Refer to the Foundry Switch and Router Installation and Basic Configuration Guide for additional information on this feature.
NOTE: Before attempting to read any CPU polling information, enable CPU polling by setting snAgGblCpuUtilCollect to 1 or issuing the cpu-usage on CLI command.
fdry.1.1.2.1.50 snAgGblCpuUtil1SecAvg
fdry.1.1.2.1.51 snAgGblCpuUtil5SecAvg
fdry.1.1.2.1.52 snAgGblCpuUtil1MinAvg
fdry.1.1.2.11 snAgentCpu
fdry.1.1.2.11.1 snAgentCpuUtilTable
fdry.1.1.2.11.1.1 snAgentCpuUtilEntry
fdry.1.1.2.11.1.1.1 snAgentCpuUtilSlotNum
fdry.1.1.2.11.1.1.2 snAgentCpuUtilCpuId
fdry.1.1.2.11.1.1.3 snAgentCpuUtilInterval
fdry.1.1.2.11.1.1.4 snAgentCpuUtilValue
Name, OID, and Syntax Access Description
snAgGblCpuUtilData
fdry.1.1.2.1.35
Syntax: Gauge
Read only Shows the CPU utilization since the last time the same command was given.
snAgGblCpuUtilCollect
fdry.1.1.2.1.36
Syntax: Integer
Read-write
Enables or disables the collection of CPU utilization statistics in a device. This can be one of the following:
• Enable(1)
• Disable(0)
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System CPU Utility TableThe following objects are available on all Foundry devices, except on ServerIron products.
snAgGblCpuUtil1SecAvg
fdry.1.1.2.1.50
Syntax: Gauge
Read only Shows CPU utilization every one second.
Also, if the snAgentCpuUtilTable is supported on a device, use that object instead of thisone.
snAgGblCpuUtil5SecAvg
fdry.1.1.2.1.51
Syntax: Gauge
Read only Shows CPU utilization every 5 seconds.
Also, if the snAgentCpuUtilTable is supported on a device, use that object instead of thisone.
snAgGblCpuUtil1MinAvg
fdry.1.1.2.1.52
Syntax: Gauge
Read only Shows CPU utilization every one minute.
Also, if the snAgentCpuUtilTable is supported on a device, use that object instead of thisone.
Name, OID, and Syntax Access Description
snAgentCpuUtilTable
fdry.1.1.2.11.1
None A table listing the utilization of all CPUs in a device.
snAgentCpuUtilEntry
fdry.1.1.2.11.1.1
None A row in the CPU utilization table.
snAgentCpuUtilSlotNum
fdry.1.1.2.11.1.1.1
Syntax: Integer
Read only Shows the slot number of the module that contains that has at least CPU.
snAgentCpuUtilCpuId
fdry.1.1.2.11.1.1.2
Syntax: Integer
Read only Shows the ID of the CPU:
• 1 – Management CPU
• 2 or greater – Slave CPU
A non-VM1/WSM management module has one CPU.
A VM1/WSM module has one management CPU and 3 slave CPUs. The management CPU could be turned off.
POS and ATM modules have no management CPU but have two slave CPUs.
One devices running Enterprise software, this object is available in software Release 07.2.x and later.
Name, OID, and Syntax Access Description
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Dynamic Memory UtilizationThe following objects manage dynamic memory utilization in all Foundry devices, except for stackable ServerIron and ServerIron XL. There are no objects for memory utilization in the stackable ServerIron. Refer to the Foundry Switch and Router Installation and Basic Configuration Guide for additional information on this feature.
snAgentCpuUtilInterval
fdry.1.1.2.11.1.1.3
Syntax: Integer
Read only Shows the CPU utilization in seconds.
CPU utilization of a primary module is displayed in 1, 5, 60, and 300 second intervals.
CPU utilization of a secondary module is displayed in 1, 5, 60, and 300 second intervals.
This object can return an additional 300 sec CPU utilization.
One devices running Enterprise software, this object is available in software Release 07.2.x and later.
snAgentCpuUtilValue
fdry.1.1.2.11.1.1.4
Syntax: Gauge
Read only Shows the CPU utilization in one-hundredths of a percent.
This object is indexed by snAgentCpuUtilSlotNum, snAgentCpuUtilCpuId, and snAgentCpuUtilInterval.
For example, a BigIron 4000 has a management module in slot 1. The module is not a VM1 module and it has only one CPU. When an snmpget is issued to snAgentCpuUtilValue.1.1.300, which translates to slot 1, CPU 1, and 300 seconds, the result is 100. Each unit of the result equals to 0.01% CPU utilization and 100 equals to 1% CPU utilization.
This object should return the same value as snAgGblCpuUtil1SecAvg, snAgGblCpuUtil5SecAvg, or snAgGblCpuUtil1MinAvg if you query the managment CPU.
One devices running Enterprise software, this object is available in software Release 07.2.x and later.
Name, OID, and Syntax Access Description
snAgGblDynMemUtil
fdry.1.1.2.1.53
Syntax: Gauge
Read only Shows the dynamic memory utilization of the device in percentage units.
NOTE: In Service Provider Release 09.1.02 and Enterprise IronWare release 07.8.00, this object was replaced by “snAgSystemDRAMUtil”.
snAgGblDynMemTotal
fdry.1.1.2.1.54
Syntax: Integer
Read only Shows the total amount of dynamic memory in a device in number of bytes.
NOTE: In Service Provider Release 09.1.02 and Enterprise IronWare release 07.8.00, this object was replaced by “snAgSystemDRAMTotal”.
Name, OID, and Syntax Access Description
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System DRAM Information GroupThis group displays memory utilization statistics for protocols that use dynamic memory allocation. It shows the same information that a show memory command displays.
This group of objects was introduced in Service Provider Release 09.1.02 and Enterprise IronWare Release 07.8.00.
ARP TablesThe following tables are available to manage ARP using SNMP:
• “RARP Table” on page 26-6
• “Static ARP Table” on page 26-7
• “Global ARP Statistics” on page 26-8
snAgGblDynMemFree
fdry.1.1.2.1.55
Syntax: Integer
Read only Shows the amount of system dynamic memory that is currently available in number of bytes.
NOTE: In Service Provider Release 09.1.02 and Enterprise IronWare release 07.8.00, this object was replaced by “snAgSystemDRAMFree”.
Name, Identifier, and Syntax Access Description
snAgSystemDRAM
fdry.1.1.2.12.4
NA The System DRAM Information Group
snAgSystemDRAMUtil
fdry.1.1.2.12.4.1
Syntax: Integer
Read only The amount of system dynamic memory that is currently utilized, in percent.
This object replaces “snAgGblDynMemUtil” in Service Provider Release 09.1.02 and Enterprise IronWare release 07.8.00.
snAgSystemDRAMTotal
fdry.1.1.2.12.4.2
Syntax: Integer
Read only The total amount of system dynamic memory, in bytes.
This object replaces “snAgGblDynMemTotal” in Service Provider Release 09.1.02 and Enterprise IronWare release 07.8.00.
snAgSystemDRAMFree
fdry.1.1.2.12.4.3
Syntax: Integer
Read only The amount of free system dynamic memory, in bytes.
This object replaces “snAgGblDynMemFree” in Service Provider Release 09.1.02 and Enterprise IronWare release 07.8.00.
snAgSystemDRAMForBGP
fdry.1.1.2.12.4.4
Syntax: Integer
Read only The amount of dynamic memory in bytes, used by BGP.
snAgSystemDRAMForOSPF
fdry.1.1.2.12.4.5
Syntax: Integer
Read only The amount of dynamic memory in bytes, used by OSPF.
Name, OID, and Syntax Access Description
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Refer to the Foundry Switch and Router Installation and Basic Configuration Guide for additional information on this feature.
RARP TableThe Reverse Address Resolution Protocol (RARP) provides a simple mechanism for directly-attached IP hosts to boot over the network. RARP allows an IP host that does not have a means of storing its IP address across power cycles or software reloads to query a directly-attached router for an IP address.
RARP is enabled by default. However, there must be a static RARP entry for each host that will use the Layer 3 Switch for booting. The following table contains the object that define each RARP entry. They are available in all Foundry devices, except ServerIron products.
Name, OID, and Syntax Access Description
snRtIpRarpTable
fdry.1.2.2.4
None IP RARP Table.
snRtIpRarpEntry
fdry.1.2.2.4.1
None An entry in the IP RARP Table.
snRtIpRarpIndex
fdry.1.2.2.4.1.1
Syntax: Integer
Read only An index for an entry in the RARP Table. There can be up to 16 entries.
snRtIpRarpMac
fdry.1.2.2.4.1.2
Syntax: Octet string
Read-write
Shows the MAC address of the RARP client.
snRtIpRarpIp
fdry.1.2.2.4.1.3
Syntax: IpAddress
Read-write
Shows the IP address for a RARP client.
snRtIpRarpRowStatus
fdry.1.2.2.4.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
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Static ARP TableAddress Resolution Protocol (ARP) is a standard IP protocol that enables an IP Layer 3 Switch to obtain the MAC address of another device’s interface when the Layer 3 Switch knows the IP address of the interface. ARP is enabled by default and cannot be disabled.
The Static ARP Table in a Foundry Layer 3 Switch contains entries that are useful in cases where you want to pre-configure an entry for a device that is not connected to the Layer 3 Switch, or you want to prevent a particular entry from aging out. The software removes a dynamic entry from the ARP cache if the ARP aging interval expires before the entry is refreshed. Static entries do not age out, regardless of whether or not the Foundry device receives an ARP request from the device that has the entry’s address.
Name, OID, and Syntax Access Description
snRtStaticArpTable
fdry.1.2.2.5
None IP static ARP Table.
snRtStaticArpEntry
fdry.1.2.2.5.1
None An entry in the IP static ARP Table.
snRtStaticArpIndex
fdry.1.2.2.5.1.1
Syntax: Integer
Read only An index for a static ARP entry. There can be up to 16 entries.
snRtStaticArpIp
fdry.1.2.2.5.1.2
Syntax: IpAddress
Read-write
Shows the IP address of a static ARP entry.
snRtStaticArpMac
fdry.1.2.2.5.1.3
Syntax: Octet string
Read-write
Specifies the MAC address of a static ARP entry.
snRtStaticArpPort
fdry.1.2.2.5.1.4
Syntax: PortIndex
Read-write
Specifies the port number attached to the device that has the MAC address of the entry.
• For FastIron or NetIron products, the value of this object is from 1 – 42
• For BigIron products, the value of this object is an encoded number:
Bit 0 to bit 7 – Port number.
Bit 8 to bit 11 – Slot number.
Beginning with software release 07.2.00, the following values have been added:
Bit 16, set to 1 – Virtual router interface
Bit 17, set to 1 – Loopback interface
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Global ARP StatisticsThe following are the MIB objects display statistics for ARP. These objects were introduced in Service Provider Release 09.1.02 and Enterprise IronWare Release 07.8.00.
snRtStaticArpRowStatus
fdry.1.2.2.5.1.5
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snRtStaticArpIfIndex
fdry.1.2.2.5.1.6
Syntax: InterfaceIndex
Read-write
The interface index for this entry.
Name, Identifier, and Syntax Access Description
snArpStatsTotalReceived
fdry.1.1.3.22.1.1
Syntax: Counter32
Read only The total number of ARP packets received from the interfaces, including those received in error.
snArpStatsRequestReceived
fdry.1.1.3.22.1.2
Syntax: Counter32
Read only The total number of input ARP request packets received from the interfaces.
snArpStatsRequestSent
fdry.1.1.3.22.1.3
Syntax: Counter32
Read only The total number of output ARP request packets sent from the interfaces.
snArpStatsRepliesSent
fdry.1.1.3.22.1.4
Syntax: Counter32
Read only The total number of output ARP reply packets sent from the interfaces.
snArpStatsPendingDrop
fdry.1.1.3.22.1.5
Syntax: Counter32
Read only The total number of ARP pending packets discarded.
Name, OID, and Syntax Access Description
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sFlow This section presents the sFlow objects that are proprietary to Foundry products. Refer to the section “RFC 3176: InMon Corporation’s sFlow: A Method for Monitoring Traffic in Switched And Routed Networks.” on page 3-18 to determine which standard objects can be used to manage sFlow in Foundry devices.
This section presents the following objects:
• “sFlow Source” on page 26-9
• “sFlow Collector” on page 26-9
Refer to the Foundry Enterprise Configuration and Management Guide for details on sFlow.
sFlow SourceThe following object supports the sFlow feature, which is available on certain modules.
sFlow Collector Currently, RFC 3176 allows only one sFlow destination to be configured. To configure two or more destinations, use the following table.
snArpStatsInvalidSource
fdry.1.1.3.22.1.6
Syntax: Counter32
Read only The total number of ARP packets received with invalid sender protocol address.
snArpStatsInvalidDestination
fdry.1.1.3.22.1.7
Syntax: Counter32
Read only The total number of ARP packets received with invalid destination protocol address.
Name, OID, and Syntax Access Description
snAgSFlowSourceInterface
fdry.1.1.2.1.59
Syntax: InterfaceIndex
Read-write Identifies the source interface for sFlow packets sent by the Foundry device that is running sFlow Export.
Use the ifIndex value for this object to specify the source interface to be used. The interface should have an IP address configured for sFlow. A value of 0 indicates that source interface has not been configured for sFlow. Port 65534 is used to specify a null port.
Name, OID, and Syntax Access Description
snSflowCollectorTable
fdry.1.1.3.19.2
None Table of sFlow collectors, beginning with the second collector. Configure the first sFlow collector using the sFlowCollectorAddress and sFlowCollectorPort objects in the RFC 3176 sFlowTable.
snSflowCollectorEntry
fdry.1.1.3.19.2.1
None A row in the sflow collector table
Name, Identifier, and Syntax Access Description
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NetFlow ExportThe following objects provide configuration information on the NetFlow Export feature. They apply to all Foundry devices except the ServerIron products.
NetFlow Export collects information about the traffic that chassis devices receive, then forwards and exports that information to a third-party collector. Third-party applications can then use the information to create reports, bill customers for network usage and so on. For detailed information on the NetFlow Export feature, refer to the Foundry Enterprise Configuration and Management Guide.
The following sections present the objects available to manage NetFlow using SNMP:
• “Global NetFlow Objects” on page 26-11
• “NetFlow Export Collector Table” on page 26-11
• “NetFlow Export Aggregation Table” on page 26-12
• “NetFlow Export Interface Table” on page 26-14
snSflowCollectorIndex
fdry.1.1.3.19.2.1.1
Syntax: Integer
Read only The index to the sFlow collector table
snSflowCollectorIP
fdry.1.1.3.19.2.1.2
Syntax: IpAddress
Read-write
The IP address of the sFlow collector
snSflowCollectorUDPPort
fdry.1.1.3.19.2.1.3
Syntax: Integer
Read-write
The number of the UDP port used by the sFlow collector
snSflowCollectorRowStatus
fdry.1.1.3.19. 2.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• other(1) – Some other case
• valid(2) – Row exists and is valid
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Global NetFlow Objects
NetFlow Export Collector TableThe following table provides information about the NetFlow Export collector. They apply to all Foundry devices except the ServerIron products.
Collectors are where expired UPD packets from Foundry devices are sent. Refer to the Foundry Enterprise Configuration and Management Guide for details on this feature.
Name, OID, and Syntax Access Description
snNetFlowGblEnable
fdry.1.1.3.18.1.1
Syntax: Integer
Read-write
Determines if NetFlow Export is enabled:
• disabled(0)
• enabled(1)
Default: disabled(0)
snNetFlowGblVersion
fdry.1.1.3.18.1.2
Syntax: Integer
Read-write
Shows the NetFlow Export version.
Default: Version 5
snNetFlowGblProtocolDisable
fdry.1.1.3.18.1.3
Syntax: Integer
Read-write
Indicates if TCP or UDP protocols are disabled:
• Bit 0 – Disables the export of all protocol except UDP and TCP
• Bit 1 – Disables the export of TCP protocol
• Bit 2 – Disables the export of UDP protocol
Default: 0
snNetFlowGblActiveTimeout
fdry.1.1.3.18.1.4
Syntax: Integer
Read-write
Specifies the maximum number of minutes that an active flow can be in the NetFlow Export cache.
Valid values: 1 – 60 minutes
Default: 60 minutes
snNetFlowGblInactiveTimeout
fdry.1.1.3.18.1.5
Syntax: Integer
Read-write
Specifies the maximum number of seconds that an inactive flow can be in the NetFlow Export cache.
Valid values: 1 – 600 seconds
Default: 60 seconds
Name, OID, and Syntax Access Description
snNetFlowCollectorTable
fdry.1.1.3.18.2
None A table of each NetFlow Export collector information.
snNetFlowCollectorEntry
fdry.1.1.3.18.2.1
None A row in the NetFlow Export Collector Table.
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NetFlow Export Aggregation TableThe following table provides information on the NetFlow Export aggregation schemes. They apply to all Foundry devices except the ServerIron products.
By default, NetFlow Export exports a separate flow for each unique set of flow information. To streamline data export, you can consolidate flows by creating aggregate caches that contain individual flows based on specific information in the flow. Refer to the Foundry Enterprise Configuration and Management Guide for details on the NetFlow Export aggregation.
snNetFlowCollectorIndex
fdry.1.1.3.18.2.1.1
Syntax: Integer
Read only The index to the NetFlow Export Collector Table.
Valid values:1 – 10.
snNetFlowCollectorIp
fdry.1.1.3.18.2.1.2
Syntax: IpAddress
Read-write
Shows the IP address of the collector.
snNetFlowCollectorUdpPort
fdry.1.1.3.18.2.1.3
Syntax: Integer
Read-write
Shows the UDP port number of the collector.
snNetFlowCollectorSourceInterface
fdry.1.1.3.18.2.1.4
Syntax: Integer
Read-write
Shows the source port for the NetFlow Export packets. Packets will be exported through this port:
• A valid port number – The port configured to be the source port.
• 0 – No source port specified. The port connected to the collector to the collector is the source port.
snNetFlowCollectorRowStatus
fdry.1.1.3.18.2.1.5
Syntax: Integer
Read-write
Creates or deletes a NetFlow Export Collector Table entry:
• other(1)
• valid(2)
• delete(3)
• create(4)
Name, OID, and Syntax Access Description
snNetFlowAggregationTable
fdry.1.1.3.18.3
None The NetFlow Export Aggregation Table
snNetFlowAggregationEntry
fdry.1.1.3.18.3.1
None An entry in the NetFlow Export Aggregation Table.
Name, OID, and Syntax Access Description
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snNetFlowAggregationIndex
fdry.1.1.3.18.3.1.1
Syntax: Integer
Read only Specifies what information will be used to aggregate the flow:
• as(1) – Autonomous system scheme uses the input and output interfaces and the source and destination BGP4 AS.
• protocolPort(2) – IP protocol and application port source and destination IP protocol, and source and destination TCP or UDP port numbers.
• destPrefix(3) – Destination prefix scheme uses output interface, destination network mask and prefix, and destination BGP4 AS.
• sourcePrefix(4) – Source prefix scheme uses the input interface, source network mask and prefix, and source BGP4 AS.
• prefix(5) – Source and destination prefix scheme use the input and output interfaces, source and destination network masks and prefixes, and source and destination BGP4 AS.
snNetFlowAggregationIp
fdry.1.1.3.18.3.1.2
Syntax: IpAddress
Read-write
The IP address of the NetFlow Export aggregation collector.
snNetFlowAggregationUdpPort
fdry.1.1.3.18.3.1.3
Syntax: Integer
Read-write
The UDP port of the NetFlow Export aggregation collector.
snNetFlowAggregationSourceInterface
fdry.1.1.3.18.3.1.4
Syntax: Integer
Read-write
Shows the source port to export the NetFlow Export aggregation packets:
• A valid port number – The port configured to be the source port.
• 0 – No source port specified. The port connected to the collector to the collector is the source port.
snNetFlowAggregationNumberOfCacheEntries
fdry.1.1.3.18.3.1.5
Syntax: Integer
Read-write
Shows the maximum number of aggregated flows that the aggregation cache can contain.
snNetFlowAggregationActiveTimeout
fdry.1.1.3.18.3.1.6
Syntax: Integer
Read-write
Shows the maximum time in minutes that an active flow can remain in the NetFlow Export aggregation cache.
Valid values: 1 – 60 minutes.
Default: 30 minutes
snNetFlowAggregationInactiveTimeout
fdry.1.1.3.18.3.1.7
Syntax: Integer
Read-write
Shows the maximum time in seconds that an inactive flow can remain in the NetFlow Export aggregation cache. The object can have a value from 10 – 600 seconds.
Default: 15 seconds
Name, OID, and Syntax Access Description
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NetFlow Export Interface TableThe following table contains information about the switching type in every NetFlow Export interface. They apply to all Foundry devices except the ServerIron products.
System Logging The objects in this section manage system logging functions (Syslog) using SNMP. The objects are grouped in the following sections:
• “Global Objects” on page 26-15
• “Dynamic System Logging Buffer Table” on page 26-17
• “Static System Logging Buffer Table” on page 26-18
Refer to the Foundry Switch and Router Installation and Basic Configuration Guide and Foundry ServerIron Installation and Configuration Guide for additional information on Syslog.
snNetFlowAggregationEnable
fdry.1.1.3.18.3.1.8
Syntax: Integer
Read-write
Indicates if NetFlow Export aggregation for this aggregation scheme is enabled:
• disabled(0)
• enabled(1)
Default: disabled(0)
snNetFlowAggregationRowStatus
fdry.1.1.3.18.3.1.9
Syntax: Integer
Read-write
Creates or deletes a NetFlow Export Aggregation table entry:
• other(1)
• valid(2)
• delete(3)
• create(4)
Name, OID, and Syntax Access Description
snNetFlowIfTable
fdry.1.1.3.18.4
None Shows a list of interface entries. The number of entries is given by the value of ifNumber.
snNetFlowIfEntry
fdry.1.1.3.18.4.1
None Entry containing the type of switching performed on that interface.
snNetFlowIfIndex
fdry.1.1.3.18.4.1.1
Syntax: Integer
Read only Shows a unique value, greater than zero, for each interface.
Valid values: 1 – 65536.
It is recommended that values are assigned contiguously starting with 1. The value for each interface sub-layer must remain constant at least from one re-initialization of the entity’s network management system to the next re-initialization.
snNetFlowIfFlowSwitching
fdry.1.1.3.18.4.1.2
Syntax: Integer
Read-write
Indicates if flow switching in a particular interface is enabled:
• disable(0)
• enable(1)
Name, OID, and Syntax Access Description
26-14 © 2008 Foundry Networks, Inc. April 2008
Monitoring and Logging
Global ObjectsThe objects below are for global system logging processes for all Foundry devices.
Name, OID, and Syntax Access Description
snAgSysLogGblEnable
fdry.1.1.2.6.1.1
Syntax: Integer
Read-write
Enables or disables system logging. Set this object to one of the following values:
• Disable(0)
• Enable(1)
Default: enable(1)
snAgSysLogGblBufferSize
fdry.1.1.2.6.1.2
Syntax: Integer
Read-write
Sets the number of dynamic system logging entries.
Valid values: Up to 100 entries.
Default: 50 entries
snAgSysLogGblClear
fdry.1.1.2.6.1.3
Syntax: Integer
Read-write
Clears the dynamic and static system log buffers. Set this object to one of the following values:
• normal(0) – System logs will not be cleared
• clearAll(1) – Clears both dynamic and static system log buffers
• clearDynamic(2) – Clears only the dynamic system log
• clearStatic(3) – Clears only the static system log
snAgSysLogGblCriticalLevel
fdry.1.1.2.6.1.4
Syntax: Integer
Read-write
Filters and identifies the events that will be logged in the logging buffer. This object consists of 32 bits. The following shows the meaning of each bit:
Bit Meaning
8 to 31 reserved
7 Warning (warning conditions)
6 Notification (normal but significant conditions)
5 Informational (informational messages)
4 Error (error conditions)
2 Debugging (debugging messages)
1 Critical (critical conditions). Setting this bit to 1 tells the logging buffer to accept the corresponding event.
0 Alert (immediate action needed). Setting this bit to 0 makes the logging buffer reject the corresponding event.
Default: 255
snAgSysLogGblLoggedCount
fdry.1.1.2.6.1.5
Syntax: Counter
Read only Shows the number events logged in the system logging buffer.
April 2008 © 2008 Foundry Networks, Inc. 26-15
Foundry Management Information Base Reference
snAgSysLogGblDroppedCount
fdry.1.1.2.6.1.6
Syntax: Counter
Read only Shows the number of events dropped from the system logging buffer.
snAgSysLogGblFlushedCount
fdry.1.1.2.6.1.7
Syntax: Counter
Read only Shows the number of times that the system logging buffer was cleared.
snAgSysLogGblOverrunCount
fdry.1.1.2.6.1.8
Syntax: Counter
Read only Shows the number of times that the system logging buffer has wrapped around.
snAgSysLogGblFacility
fdry.1.1.2.6.1.10
Syntax: Integer
Read-write
Shows the facility code:
• kern(1)
• user(2)
• mail(3)
• daemon(4)
• auth(5)
• syslog(6)
• lpr(7)
• news(8)
• uucp(9)
• sys9(10)
• sys10(11)
• sys11(12)
• sys12(13)
• sys13(14)
• sys14(15)
• cron(16)
• local0(17)
• local1(18)
• local2(19)
• local3(20)
• local4(21)
• local5(22)
• local6(23)
• local7(24)
Default: user(2)
Name, OID, and Syntax Access Description
26-16 © 2008 Foundry Networks, Inc. April 2008
Monitoring and Logging
Dynamic System Logging Buffer TableThe following table applies to all Foundry devices. It contains the events logged in the Dynamic System Log. Events that are not logged in the Static System Log are logged in the Dynamic System Log.
Name, OID, and Syntax Access Description
snAgSysLogBufferTable
fdry.1.1.2.6.2
None Dynamic system logging buffer table.
snAgSysLogBufferEntry
fdry.1.1.2.6.2.1
None A row in the dynamic system logging buffer table.
snAgSysLogBufferIndex
fdry.1.1.2.6.2.1.1
Syntax: Integer
Read only Shows the index to the dynamic system logging buffer table.
snAgSysLogBufferTimeStamp
fdry.1.1.2.6.2.1.2
Syntax: Time ticks
Read only Shows the time stamp for when the event is logged.
snAgSysLogBufferCriticalLevel
fdry.1.1.2.6.2.1.3
Syntax: Integer
Read only Show how critical this event is:
• other(1)
• alert(2)
• critical(3)
• debugging(4)
• emergency(5)
• error(6)
• informational(7)
• notification(8)
• warning(9)
snAgSysLogBufferMessage
fdry.1.1.2.6.2.1.4
Syntax: Display string
Read only Displays the system logging message.
snAgSysLogBufferCalTimeStamp
fdry.1.1.2.6.2.1.5
Syntax: Display string
Read only Shows the time stamp when the event is logged. This object is used only if an external time source, such as an SNTP server, is configured. Otherwise, the value of this object is 0.
This object returns a NULL terminated time stamp string if the system calendar time was set. It returns a blank if the system calendar time was not set.
April 2008 © 2008 Foundry Networks, Inc. 26-17
Foundry Management Information Base Reference
Static System Logging Buffer TableThe following table applies to all Foundry devices. It contains the events logged in the Static System Log. The Static System Log receives power failures, fan failures, temperature warnings, or shutdown messages.
Name, OID, and Syntax Access Description
snAgStaticSysLogBufferTable
fdry.1.1.2.6.3
None Static system logging buffer table.
snAgStaticSysLogBufferEntry
fdry.1.1.2.6.3.1
None A row in the static system logging buffer table.
snAgStaticSysLogBufferIndex
fdry.1.1.2.6.3.1.1
Syntax: Integer
Read only The index to the static system logging buffer table.
snAgStaticSysLogBufferTimeStamp
fdry.1.1.2.6.3.1.2
Syntax: Time ticks
Read only A time stamp, in number of time ticks, when the event is logged.
snAgStaticSysLogBufferCriticalLevel
fdry.1.1.2.6.3.1.3
Syntax: Integer
Read only The critical level of this event:
• alert(2)
• critical(3)
• debugging(4)
• emergency(5)
• error(6)
• informational(7)
• notification(8)
• warning(9)
snAgStaticSysLogBufferMessage
fdry.1.1.2.6.3.1.4
Syntax: Display string
Read only The system logging message.
snAgStaticSysLogBufferCalTimeStamp
fdry.1.1.2.6.3.1.5
Syntax: Display string
Read only A time stamp when the event is logged. This object is used only if an external time source, such as an SNTP server, is configured. Otherwise, the value of this object is 0.
If an SNTP server is used to maintain time, then this object adds the value of the object “snAgStaticSysLogBufferTimeStamp” to the SNTP base to calculate the absolute time.
This object returns a NULL terminated time stamp string if the system calendar time was set. It returns a blank if the system calendar time was not set.
26-18 © 2008 Foundry Networks, Inc. April 2008
Monitoring and Logging
System Log Server TableThe System Log (Syslog) Server Table shows which servers will receive Syslog messages. Every server in this table will receive all Syslog messages.
CAM StatisticsThe following tables present statistics for the CAM:
• “System Log Server Table”
• “IP CAM Statistics Table” on page 26-19
These tables were introduced in Service Provider Release 09.1.02 and Enterprise IronWare Release 07.8.00.
IP CAM Statistics TableThis table lists the CAM statistics for Layer 3. It is the output for the dm cam-stat ip CLI command.
Name, OID, and Syntax Access Description
snAgSysLogServerTable
fdry.1.1.2.6.4
None System Log Server Table
snAgSysLogServerEntry
fdry.1.1.2.6.4.1
None A row in the System Log Server Table
snAgSysLogServerIP
fdry.1.1.2.6.4.1.1
Syntax: IpAddress
Read-write IP address of System Log server
snAgSysLogServerUDPPort
fdry.1.1.2.6.4.1.2
Syntax: Integer
Read-write UDP port number of the Syslog server.
Valid values: 0 – 65535
snAgSysLogServerRowStatus
fdry.1.1.2.6.4.1.3
Syntax: Integer
Read-write Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• other(1) – Other
• valid(2) – Row exists and is valid
Name, Identifier, and Syntax Access Description
snCAMIpStatTable
fdry.1.1.2.12.2
NA IP CAM Statistics Table
April 2008 © 2008 Foundry Networks, Inc. 26-19
Foundry Management Information Base Reference
The output provides the following information:
• L3 L3 1 - 2047 (0x00001 - 0x007ff), free 2047 (0x007ff)
• L3 L2 2048 - 4095 (0x00800 - 0x00fff), free 2048 (0x00800)
• L3 4096 - 32767 (0x01000 - 0x07fff), free 28662 (0x06ff6)
Values are shared across the DMA. Also, if IP activity across DMAs are not different, some fields may show the same values.
snCAMIpStatEntry
fdry.1.1.2.12.2.1
NA An entry in the IP CAM Statistics Table. Each row shows statistics for one interface and level.
snCAMIpStatIfIndex
fdry.1.1.2.12.2.1.1
Syntax: Unsigned32
Read only The ifIndex value of the local interface.
snCAMIpStatLevel
fdry.1.1.2.12.2.1.2
Syntax: Unsigned32
Read only Level of CAM entry for that interface.
snCAMIpStatFreeEntries
fdry.1.1.2.12.2.1.3
Syntax: Unsigned32
Read only Free entries in the IP CAM for that interface and level.
snCAMIpStatTotalEntries
fdry.1.1.2.12.2.1.4
Syntax: Unsigned32
Read only Total entries in the IP CAM for that interface and level.
Name, Identifier, and Syntax Access Description
26-20 © 2008 Foundry Networks, Inc. April 2008
Monitoring and Logging
CAM Statistics Table
This table shows CAM statistics for all master DMAs. It is equivalent to the dm cam stat <dma master num> CLI command.
Name, Identifier, and Syntax Access Description
snCAMStatTable
fdry.1.1.2.12.3
NA CAM Statistics Table
snCAMStatEntry
fdry.1.1.2.12.3.1
NA A row representing CAM statistics for a given DMA ID number.
snCamStatDMAIdNumber
fdry.1.1.2.12.3.1.1
Syntax: Unsigned32
Read only DMA ID number.
snCamStatDMAMasterNumber
fdry.1.1.2.12.3.1.2
Syntax: Unsigned32
Read only DMA master for the DMA ID number.
snCamStatFreePool0Entries
fdry.1.1.2.12.3.1.3
Syntax: Unsigned32
Read only CAM free pool0 entries.
snCamStatFreePool1Entries
fdry.1.1.2.12.3.1.4
Syntax: Unsigned32
Read only CAM free pool1 entries.
snCamStatFreePool2Entries
fdry.1.1.2.12.3.1.5
Syntax: Unsigned32
Read only CAM free pool2 entries.
snCamStatFreePool3Entries
fdry.1.1.2.12.3.1.6
Syntax: Unsigned32
Read only CAM free pool3 entries.
snCamStatFreeL2Entries
fdry.1.1.2.12.3.1.7
Syntax: Unsigned32
Read only CAM Free L2 entries
snCamStatFreeL2LowestSection
fdry.1.1.2.12.3.1.8
Syntax: Unsigned32
Read only CAM Free L2 lowest section entries.
snCamStatHostLookupCount
fdry.1.1.2.12.3.1.9
Syntax: Unsigned32
Read only CAM host lookup count for router.
April 2008 © 2008 Foundry Networks, Inc. 26-21
Foundry Management Information Base Reference
snCamStatRouteLookupCount
fdry.1.1.2.12.3.1.10
Syntax: Unsigned32
Read only CAM route lookup count for router.
snCamStatLevel1
fdry.1.1.2.12.3.1.11
Syntax: Unsigned32
Read only CAM stat level1 entries for router.
snCamStatLevel2
fdry.1.1.2.12.3.1.12
Syntax: Unsigned32
Read only CAM stat level2 entries for router.
snCamStatLevel3
fdry.1.1.2.12.3.1.13
Syntax: Unsigned32
Read only CAM stat level3 entries for router.
snCamStatMacFailCount
fdry.1.1.2.12.3.1.14
Syntax: Unsigned32
Read only CAM MAC fail count.
snCamStatIPRouteFailCount
fdry.1.1.2.12.3.1.15
Syntax: Counter
Read only CAM IP route fail count.
snCamStatIPSessionFailCount
fdry.1.1.2.12.3.1.16
Syntax: Counter
Read only CAM IP session fail count.
snCamStatIPMCastFailCount
fdry.1.1.2.12.3.1.17
Syntax: Counter
Read only CAM IP multicast fail count.
snCamStatL2SessionFailCount
fdry.1.1.2.12.3.1.18
Syntax: Counter
Read only CAM L2 session fail count.
snCamStatAddMACCount
fdry.1.1.2.12.3.1.19
Syntax: Counter
Read only CAM add MAC count.
snCamStatAddVLANCount
fdry.1.1.2.12.3.1.20
Syntax: Counter
Read only CAM add VLAN count.
Name, Identifier, and Syntax Access Description
26-22 © 2008 Foundry Networks, Inc. April 2008
Monitoring and Logging
CAM Usage TablesThe CAM Usage Tables allow customers to poll the interface modules for CAM usage information. Infomation is available for the following:
• Available CAM size per partition
• Amount of free CAM
• Amount of used CAM in percent
The CAM usage tables are equivalent to the show cam-partition CLI command. CAM partition profile is configured by the cam-partition profile CLI command
CAM usage data is stored in the interface processors and are obtained by the management processor.
This section contains the following:
• “CAM Profile” on page 26-24
• “CAM Usage for Layer 3 Traffic” on page 26-24
• “CAM Usage for Layer 2 Traffic” on page 26-25
• “CAM Usage Session Table” on page 26-26
snCamStatAddIPHostCount
fdry.1.1.2.12.3.1.21
Syntax: Counter
Read only CAM add IP host count.
snCamStatAddIPRouteCount
fdry.1.1.2.12.3.1.22
Syntax: Counter
Read only CAM add IP route count.
snCamStatAddIPSessionCount
fdry.1.1.2.12.3.1.23
Syntax: Counter
Read only CAM add IP session count.
snCamStatAddIPMCastCount
fdry.1.1.2.12.3.1.24
Syntax: Counter
Read only CAM add IP multicast count.
snCamStatAddL2SessionCount
fdry.1.1.2.12.3.1.25
Syntax: Counter
Read only CAM add L2 session count.
snCamStatAddIPXCount
fdry.1.1.2.12.3.1.26
Syntax: Counter
Read only CAM add IPX count.
snCamStatDeleteDMACamCount
fdry.1.1.2.12.3.1.27
Syntax: Counter
Read only CAM delete DMA CAM count.
Name, Identifier, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 26-23
Foundry Management Information Base Reference
• “CAM Usage Other Table” on page 26-28
CAM Profile This object identifies CAM partition profiles. Each profile adjusts the partitions to optimize the device for corresponding applications.
NOTE: This object is supported in the NetIron Multi-Service IronWare software release 03.8.00 and later.
CAM Usage for Layer 3 TrafficThe following table contains information about the CAM usage on the device by Layer 3 traffic.
NOTE: This object is supported in the NetIron Multi-Service IronWare software release 03.8.00 and later.
Name, Identifier, and Syntax Access Description
snCamProfile
fdry.1.14.1.1.1.1
Syntax: Integer
Read only Displays one of the following:
• default(1)
• ipv4(2)
• ipv4-ipv6(3)
• ipv4-ipv6-2(4)
• ipv4-vpls(5)
• ipv4-vpn(6)
• ipv6(7)
• l2-metro(8)
• l2-metro-2(9)
• mpls-l3vpn(10)
• mpls-l3vpn-2(11)
• mpls-vpls(12)
• mpls-vpls-2(13)
• mpls-vpn-vpls(14)
• multi-service(15)
• multi-service-2(16)
Name, Identifier, and Syntax Access Description
snCamUsageL3Table
fdry.1.14.1.1.2.1
NA The CAM Usage table for Layer 3 Traffic.
snCamUsageL3Entry
fdry.1.14.1.1.2.1.1
NA An entry in the snCamUsageL3Table.
26-24 © 2008 Foundry Networks, Inc. April 2008
Monitoring and Logging
CAM Usage for Layer 2 TrafficThe following table contains information about the CAM usage on the device by Layer 2 traffic.
snCamUsageL3Slot
fdry.1.14.1.1.2.1.1.1
Syntax: Unsigned32
Not accessible
A number which uniquely identifies an interface module on the device
snCamUsageL3Processor
fdry.1.14.1.1.2.1.1.2
Syntax: Unsigned32
Not accessible
A number which uniquely identifies the network processor of the interface module identified by the “snCamUsageL3Slot” object.
snCamUsageL3Type
fdry.1.14.1.1.2.1.1.3
Syntax: Integer
Not accessible
Identifies the type of Layer 3 traffic passing through the network processor
snCamUsageL3Supernet
fdry.1.14.1.1.2.1.1.4
Syntax: Unsigned32
Not accessible
Identifies the Supernet for the Layer 3 type traffic. It provides information for longest match lookup.
For example:
• 0 (zero) - all the bits of an IP address will be matched
• 1 - all but the lowest bit in an IP address will be matched.
Valid Values:
• IPv4 and IPv4VPN: 0 - 32, where a value of 32 indicates the entry is the total of other Supernets indexed by [0..31].
• IPv6: 0..10, where a value of 10 indicates the entry is the total of other Supernets indexed by [0..9].
snCamUsageL3Size
fdry.1.14.1.1.2.1.1.5
Syntax: Unsigned32
Read only The effective CAM size by the Layer 3 traffic:
• iPv4 traffic: Each unit is 4 bytes.
• IPv4vpn traffic: Each unit is 8 bytes.
• IPv6 traffic: Each unit is 16 bytes.
snCamUsageL3Free
fdry.1.14.1.1.2.1.1.6
Syntax: Gauge32
Read only The amount of CAM currently available by the Layer 3 traffic entry:
• IPv4 traffic: each unit is 4 bytes.
• IPv4vpn traffic: each unit is 8 bytes.
• IPv6 traffic: each unit is 16 bytes.
snCamUsageL3UsedPercent
fdry.1.14.1.1.2.1.1.7
Syntax: Percent
Read only The percentage of CAM currently being used by the Layer 3 traffic.
Name, Identifier, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 26-25
Foundry Management Information Base Reference
NOTE: This object is supported in the NetIron Multi-Service IronWare software release 03.8.00 and later.
CAM Usage Session TableThe following table contains information about the CAM usage on the device by sessions traffic.
Name, Identifier, and Syntax Access Description
snCamUsageL2Table
fdry.1.14.1.1.2.2
NA The CAM usage table for Layer 2 traffic.
snCamUsageL2Entry
fdry.1.14.1.1.2.2.1
NA An entry in the snCamUsageL2Table.
snCamUsageL2Slot
fdry.1.14.1.1.2.2.1.1
Syntax: Unsigned32
Not accessible
A number which uniquely identifies an interface module on the device
snCamUsageL2Processor
fdry.1.14.1.1.2.2.1.2
Syntax: Unsigned32
Not accessible
A number which uniquely identifies the network processor of the interface module identified by the “snCamUsageL2Slot” object.
snCamUsageL2Type
fdry.1.14.1.1.2.2.1.3
Syntax: Integer
Not accessible
Identifies the type of layer 2 traffic passing through the network processor:
• forwarding(1)
• protocol(2)
• flooding(3)
• total(4)
snCamUsageL2Size
fdry.1.14.1.1.2.2.1.4
Syntax: Unsigned32
Not accessible
Indicates the effective CAM size for this layer 2 traffic entry. Each unit is 8 bytes.
snCamUsageL2Free
fdry.1.14.1.1.2.2.1.5
Syntax: Gauge32
Read only Shows the amount of CAM currently available for this Layer 2 traffic. Each unit is 8 bytes."
snCamUsageL2UsedPercent
fdry.1.14.1.1.2.2.1.6
Syntax: Percent
Read only Shows the percentage of CAM currently being used for this Layer 2 traffic.
26-26 © 2008 Foundry Networks, Inc. April 2008
Monitoring and Logging
NOTE: This object is supported in the NetIron Multi-Service IronWare software release 03.8.00 and later.
Name, Identifier, and Syntax Access Description
snCamUsageSessionTable
fdry.1.14.1.1.2.3
NA The CAM Usage table for Layer 3 Traffic.
snCamUsageSessionEntry
fdry.1.14.1.1.2.3.1
NA An entry in the snCamUsageSessionTable.
snCamUsageSessionSlot
fdry.1.14.1.1.2.3.1.1
Syntax: Unsigned32
Not accessible
A number that uniquely identifies an interface module on the device.
snCamUsageSessionProcessor
fdry.1.14.1.1.2.3.1.2
Syntax: Unsigned32
Not accessible
A number which uniquely identifies the network processor on the interface module identified by the “snCamUsageSessionSlot” object.
snCamUsageSessionType
fdry.1.14.1.1.2.3.1.3
Syntax: Integer
Not accessible
Identifies the type of session:
• ipv4Multicast(1)
• ipv4andMacReceiveAcl(2)
• ipv4andMacRuleAcl(3)
• ipv4andMacTotal(4)
• ipv4andMacOut(5)
• ipv6Multicast(6)
• ipv6ReceiveAcl(7)
• ipv6RuleAcl(8)
• ipv6Total(9)
• ipv6Out(10)
• lableOut(11)
snCamUsageSessionSize
fdry.1.14.1.1.2.3.1.4
Syntax: Unsigned32
Read only Identifies the effective CAM size for this session traffic entry:
• IPv4 sessions: each unit is 16 bytes
• IPv6 sessions: each unit is 64 bytes
snCamUsageSessionFree
fdry.1.14.1.1.2.3.1.5
Syntax: Gauge32
Read only The amount of CAM currently available for this session:
• IPv4 sessions: each unit is 16 bytes
• IPv6 sessions: each unit is 64 bytes
snCamUsageSessionUsedPercent
fdry.1.14.1.1.2.3.1.6
Syntax: Percent
Read only The percentage of CAM currently being used by this session.
April 2008 © 2008 Foundry Networks, Inc. 26-27
Foundry Management Information Base Reference
CAM Usage Other TableThe following table contains information about the CAM usage on the device by traffic other than Layer 3, Layer 2, and Sessions.
NOTE: This object is supported in the NetIron Multi-Service IronWare software release 03.8.00 and later.
Name, Identifier, and Syntax Access Description
snCamUsageOtherTable
fdry.1.14.1.1.2.4
NA CAM Usage table for traffic types other than Layer 3, Layer 2, and Sessions traffic.
snCamUsageOtherEntry
fdry.1.14.1.1.2.4.1
NA An entry in the snCamUsageOtherTable.
snCamUsageOtherSlot
fdry.1.14.1.1.2.4.1.1
Syntax: Unsigned32
Not accessible
A number that uniquely identifies an interface module on the device
snCamUsageOtherProcessor
fdry.1.14.1.1.2.4.1.2
Syntax: Unsigned32
Not accessible
A number which uniquely identifies the network processor on the interface module identified by the “snCamUsageOtherSlot” object.
snCamUsageOtherType
fdry.1.14.1.1.2.4.1.3
Syntax: Integer
Not accessible
Identifies the traffic type:
• gre(1)
• multicastVpls(2)
snCamUsageOtherSize
fdry.1.14.1.1.2.4.1.4
Syntax: Unsigned32
Read only Indicates the effective CAM size for this Other traffic type:
• GRE: each unit is 8 bytes
• Multicast VPLS: each unit is 16 bytes
snCamUsageOtherFree
fdry.1.14.1.1.2.4.1.5
Syntax: Gauge32
Read only Indicates the amount of CAM currently available to this traffic type:
• GRE: each unit is 8 bytes
• Multicast VPLS: each unit is 16 bytes
snCamUsageOtherUsedPercent
fdry.1.14.1.1.2.4.1.6
Syntax: Percent
Read only Indicates the percentage of CAM currently being used for this traffic type.
26-28 © 2008 Foundry Networks, Inc. April 2008
Monitoring and Logging
System Process Utilization TableThis table lists CPU utilization and statistics for all CPU processes on the device. It is equivalent to the show process cpu CLI command, which displays routing statistics for major protocols.
This table was introduced in Service Provider Release 09.1.02 and Enterprise IronWare Release 07.8.00.
Name, Identifier, and Syntax Access Description
snCpuProcessTable
fdry.1.1.2.11.2
NA System Process Utilization Table
snCpuProcessEntry
fdry.1.1.2.11.2.1
NA A row in the System Process Utilization Table.
snCpuProcessName
fdry.1.1.2.11.2.1.1
Syntax: Display string
Read only Name of the process.
snCpuProcess5SecUtil
fdry.1.1.2.11.2.1.2
Syntax: Gauge
Read only Statistics collected during the last 5 seconds of process utilization. Divide this number by 100 to get the percentage utilization.
snCpuProcess1MinUtil
fdry.1.1.2.11.2.1.3
Syntax: Gauge
Read only Statistics collected during the last 1 minute of process utilization. Divide this number by 100 to get the percentage utilization.
snCpuProcess5MinUtil
fdry.1.1.2.11.2.1.4
Syntax: Gauge
Read only Statistics collected during the last 5 minutes of process utilization. Divide this number by 100 to get the percentage utilization.
snCpuProcess15MinUtil
fdry.1.1.2.11.2.1.5
Syntax: Gauge
Read only Statistics collected during the last 15 minutes of process utilization. Divide this number by 100 to get the percentage utilization.
snCpuProcessRuntime
fdry.1.1.2.11.2.1.6
Syntax: Counter
Read only Process runtime in milliseconds.
April 2008 © 2008 Foundry Networks, Inc. 26-29
Foundry Management Information Base Reference
Objects for Debugging The following objects are for debugging. They are equivalent to the debug CLI command.
These objects were introduced in Service Provider Release 09.1.02 and Enterprise IronWare Release 07.8.00.
Name, Identifier, and Syntax Access Description
snAgSystemDebug
fdry.1.1.2.12.5
NA The System Debug group
snAgSystemDebugTotalIn
fdry.1.1.2.12.5.1
Syntax: Unsigned32
Read only Total incoming packet count. Sum of Buffer Manager and CPU read count.
snAgSystemDebugTotalOut
fdry.1.1.2.12.5.2
Syntax: Unsigned32
Read only Total outgoing packet count.
snAgSystemDebugCpuQueueRead
fdry.1.1.2.12.5.3
Syntax: Unsigned32
Read only CPU Queue read count.
snAgSystemDebugDRAMBuffer
fdry.1.1.2.12.5.4
Syntax: Unsigned32
Read only DRAM buffer count.
snAgSystemDebugBMBuffer
fdry.1.1.2.12.5.5
Syntax: Unsigned32
Read only BM buffer count.
snAgSystemDebugBMFreeBuffer
fdry.1.1.2.12.5.6
Syntax: Unsigned32
Read only Free BM buffer count.
snAgSystemDebugBMFreeBufferMgmt
fdry.1.1.2.12.5.7
Syntax: Unsigned32
Read only Free BM buffer management count.
snAgSystemDebugIpcGigLock
fdry.1.1.2.12.5.8
Syntax: Unsigned32
Read only IPC GIG lock count.
snAgSystemDebugDRAMGetError
fdry.1.1.2.12.5.9
Syntax: Unsigned32
Read only DRAM get error count.
26-30 © 2008 Foundry Networks, Inc. April 2008
Monitoring and Logging
Support for Optical MonitoringThe following objects are for support is POS and Ethernet optical monitoring. They are equivalent to the show optics CLI command.
These objects were introduced in XMR/MLX 03.5.00 IronWare Release.
snAgSystemDebugDRAMToBMCopyFail
fdry.1.1.2.12.5.10
Syntax: Unsigned32
Read only DRAM to Buffer Manager copy fail count.
Name, Identifier, and Syntax Access Description
snIfOpticalMonitoringInfoTable
fdry.1.1.3.3.6
None This table lists the instrumented parameters of alloptical interfaces.
snIfOpticalMonitoringInfoEntry
fdry.1.1.3.3.6.1
Syntax: Unsigned32
None The snIfOpticalMonitoringInfoEntry specifies the optical parameters of the specified interface.Only the ifIndices of optical interfaces whose parameters need to be monitored will be used to index this table.
snIfOpticalMonitoringTemperature
fdry.1.1.3.3.6.1.1
Syntax: Display string
Read-only This object holds the value of the transmitter laser diode temperature for the interface. This object indicates the health of the transmitter.
The format is xxx.yyyy C(elcius), followed by whether the measured value is normal, high/low alarm or high/low warning.
snIfOpticalMonitoringTxPower
fdry.1.1.3.3.6.1.2
Syntax: Display string
Read-only This object holds the value of the transmitter optical signal power for the interface, measured in dBm, followed by whether this is a normal value, or high/low warning or alarm.
snIfOpticalMonitoringRxPower
fdry.1.1.3.3.6.1.3
Syntax: Display string
Read-only This object holds the value of the receiver optical signal power for the interface, measured in dBm, followed by whether this is a normal value, or high/low warning or alarm.
snIfOpticalMonitoringTxBiasCurrent
fdry.1.1.3.3.6.1.4
Syntax: Display string
Read-only Tx Bias Current. It is measured in mA, and is followed by whether this is a normal value, or high/low warning or alarm.
Name, Identifier, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 26-31
Foundry Management Information Base Reference
26-32 © 2008 Foundry Networks, Inc. April 2008
Chapter 27Layer 4 Switch Group
This chapter presents objects in the Foundry MIB and are specific to Layer 4 to 7 functionality. These objects are presented in the following sections:
• “Session” on page 27-8
• “Server Load Balancing Traffic Information” on page 27-9)
• “Hot Standby” on page 27-11
• “Layer 4 Policies” on page 27-12
• “Health Checks” on page 27-15
• “Web Cache Server Objects” on page 27-15
• “Real Server Objects” on page 27-24
• “Virtual Server Objects” on page 27-32
• “Bind Table” on page 27-40
• “GSLB Site Remote ServerIron Configuration Table” on page 27-42
• “GSLB DNS Zone Information Table” on page 27-44
• “Monitor Groups” on page 27-46
For trap objects and object to enable traps specific to ServerIron, refer to the following sections:
• “Traps and Objects to Enable Traps” on page 30-1
• “Layer 4 Traps” on page 30-40
Refer to the ServerIron manuals for details on the features discussed in this section. ServerIron manuals are listed in the section “Related Publications” on page 1-1.
April 2008 © 2008 Foundry Networks, Inc. 27-1
Foundry Management Information Base Reference
BP Hardware StatisticsThe barrel processor (BP) Hardware Statistics table contains BP statistics detail information.
Name, OID, and Syntax Access Description
snAgentHwBPStatTable
fdry.1.1.2.12.1
None The Barrel Processor Hardware Statistics table.
snAgentHwBPStatEntry
fdry.1.1.2.12.1.1
None An entry in the Barrel Processor Hardware Statistics table.
snAgentHwBPStatSlotNumber
ffdry.1.1.2.12.1.1
Syntax: Integer
Read only Indicates Barrel processor slot number.
snAgentHwBPStatBpNumber
fdry.1.1.2.12.1.1.2
Syntax: Integer
Read-only Indicates the Barrel processor (CPU) BP number.
snAgentHwBPTotalRxQueues
fdry.1.1.2.12.1.1.3
Syntax: Integer
Read-only Indicates the maximum hardware receive-queues in the BP.
snAgentHwBPAvailableRxQueues
fdry.1.1.2.12.1.1.4
Syntax: Integer
Read-only Indicates the available hardware receive-queues in the BP.
snAgentHwBPRxQueueEmptyStatus
fdry.1.1.2.12.1.1.5
Syntax: Integer
Read-only Indicates if the hardware receive-queue is empty.
{ false(0), true(1) }
snAgentHwBPFpgaRxSmc0Pkts
fdry.1.1.2.12.1.1.6
Syntax: Counter
Read-only Indicates the number of packets received through SMC0 in BP FPGA.
snAgentHwBPFpgaRxSmc1Pkts
fdry.1.1.2.12.1.1.7
Syntax: Counter
Read-only Indicates the number of packets received through SMC1 in BP FPGA.
snAgentHwBPFpgaRxTotalPkts
fdry.1.1.2.12.1.1.8
Syntax: Counter
Read-only Indicates the total number of packets received in the BP FPGA.
snAgentHwBPFpgaTxSmc0Pkts
ffdry.1.1.2.12.1.1.9
Syntax: Counter
Read-only Indicates the number of packets transmitted to SMC0 from the BP FPGA.
27-2 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
snAgentHwBPFpgaTxSmc1Pkts
fdry.1.1.2.12.1.1.10
Syntax: Counter
Read-only Indicates the number of packets transmitted to SMC1 from the BP FPGA.
snAgentHwBPFpgaTxTotalPkts
fdry.1.1.2.12.1.1.11
Syntax: Counter
Read-only Indicates the total number of packets transmitted from the BP FPGA.
snAgentHwBPFpgaWrQueDropSmc0
fdry.1.1.2.12.1.1.12
Syntax: Counter
Read-only Indicates the number of packets dropped between the SMC0 and the write-queue of the BP FPGA
snAgentHwBPFpgaWrQueDropSmc1
fdry.1.1.2.12.1.1.13
Syntax: Counter
Read-only Indicates the number of packets dropped between the SMC1 and the write-queue of the BP FPGA.
snAgentHwBPFpgaWrQueDropTotal
fdry.1.1.2.12.1.1.14
Syntax: Counter
Read-only Indicates the total number of packets dropped in the write-queue of the BP FPGA.
snAgentHwBPSwRxSmc0Pkts
fdry.1.1.2.12.1.1.15
Syntax: Counter
Read-only Indicates the number of packets received by the switch from the SMC0.
snAgentHwBPSwRxSmc1Pkts
fdry.1.1.2.12.1.1.16
Syntax: Counter
Read-only Indicates the number of packets received by the switch from the SMC1.
snAgentHwBPSwRxTotalPkts
fdry.1.1.2.12.1.1.17
Syntax: Counter
Read-only Indicates the total number of packets received by the switch.
snAgentHwBPSwTxSmc0Pkts
fdry.1.1.2.12.1.1.18
Syntax: Counter
Read-only Indicates the number of packets transmitted from the switch to the SMC0.
snAgentHwBPSwTxSmc1Pkts
fdry.1.1.2.12.1.1.19
Syntax: Counter
Read-only Indicates the number of packets transmitted from the switch to the SMC1.
snAgentHwBPSwTxTotalPkts
fdry.1.1.2.12.1.1.20
Syntax: Counter
Read-only Indicates the total number of packets transmitted from the switch.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-3
Foundry Management Information Base Reference
snAgentHwBPWrQueSmallPktsDrop
fdry.1.1.2.12.1.1.21
Syntax: Counter
Read-only Indicates the number of small-sized packets dropped in the Write-queue.
snAgentHwBPWrQueueFull
fdry.1.1.2.12.1.1.22
Syntax: Counter
Read-only Indicates the number of packets dropped because the Write-queue is full.
snAgentHwBPWrQueueHighDepth
fdry.1.1.2.12.1.1.23
Syntax: Counter
Read-only Indicates the depth the Write-queue High portion.
snAgentHwBPWrQueueLowDepth
fdry.1.1.2.12.1.1.24
Syntax: Counter
Read-only Indicates the depth the Write-queue Low portion.
snAgentHwBPRdQueueDepth
fdry.1.1.2.12.1.1.25
Syntax: Counter
Read-only Indicates the depth of the read-queue.
snAgentHwBPSwRxCount
fdry.1.1.2.12.1.1.26
Syntax: Counter
Read-only Indicates the number of packets received by the switch.
snAgentHwBPSwFwdCount
fdry.1.1.2.12.1.1.27
Syntax: Counter
Read-only Indicates the number of packets forwarded by the switch.
snAgentHwBPSwDropCount
fdry.1.1.2.12.1.1.28
Syntax: Counter
Read-only Indicates the number of packets dropped by the switch.
snAgentHwBPSwBufAlloc
fdry.1.1.2.12.1.1.29
Syntax: Counter
Read-only Indicates the number of buffers allocated by the switch.
snAgentHwBPSwBufSend
fdry.1.1.2.12.1.1.30
Syntax: Counter
Read-only Indicates the number of buffers used for transmission by the switch.
snAgentHwBPSwBufFree
fdry.1.1.2.12.1.1.31
Syntax: Counter
Read-only Indicates the number of buffers freed by the switch.
Name, OID, and Syntax Access Description
27-4 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
BP Inter-Process Communication StatisticsThe barrel processor (BP) Inter-Process Communication table contains BP statistics detail information.
snAgentHwBPSwBufAllocFail
fdry.1.1.2.12.1.1.32
Syntax: Counter
Read-only Indicates the number of buffers that the switch failed to allocate.
Name, OID, and Syntax Access Description
snAgentHwBPIpcStatTable
fdry.1.1.2.12.8.1
None The BP Inter-process communication (IPC) Statistics table.
snAgentHwBPIpcStatEntry
fdry.1.1.2.12.8.1.1
None An entry in BP IPC Statistics table.
snAgentHwBPIpcStatSlotNumber
ffdry.1.1.2.12.8.1.1.1
Syntax: Integer
Read only Indicates BP slot number.
snAgentHwBPIpcStatBpNumber
fdry.1.1.2.12.8.1.1.2
Syntax: Integer
Read-only Indicates the BP (CPU) number.
snAgentHwBPIpcRxPkts
fdry.1.1.2.12.8.1.1.3
Syntax: Counter
Read-only Indicates the number of the IPC data packets received by the BP from the MP.
snAgentHwBPIpcTxPkts
fdry.1.1.2.12.8.1.1.4
Syntax: Counter
Read-only Indicates the number of the IPC data packets transmitted by the BP to the MP.
snAgentHwBPIpcRxMsgs
fdry.1.1.2.12.8.1.1.5
Syntax: Counter
Read-only Indicates the number of the IPC messages received by the BP from the MP.
snAgentHwBPIpcTxMsgs
fdry.1.1.2.12.8.1.1.6
Syntax: Counter
Read-only Indicates the number of the IPC messages transmitted by the BP to the MP.
snAgentHwBPIpcRxFragPkts
fdry.1.1.2.12.8.1.1.7
Syntax: Counter
Read-only Indicates the number of the IPC fragmented data packets received by the BP from the MP.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-5
Foundry Management Information Base Reference
snAgentHwBPIpcTxFragPkts
fdry.1.1.2.12.8.1.1.8
Syntax: Counter
Read-only Indicates the number of the IPC fragmented data packets transmitted by the BP to the MP.
snAgentHwBPIpcDropPkts
ffdry.1.1.2.12.8.1.1.9
Syntax: Counter
Read-only Indicates the number of dropped IPC data packets.
snAgentHwBPIpcDropMsgs
fdry.1.1.2.12.8.1.1.10
Syntax: Counter
Read-only Indicates the number of dropped IPC messages.
snAgentHwBPIpcTxPktsError
fdry.1.1.2.12.8.1.1.11
Syntax: Counter
Read-only Indicates the number of transmitted IPC data packets that have errors.
snAgentHwBPIpcTxMsgsError
fdry.1.1.2.12.8.1.1.12
Syntax: Counter
Read-only Indicates the number of transmitted IPC messages that have errors.
snAgentHwBPIpcTxQueuesFull
fdry.1.1.2.12.8.1.1.13
Syntax: Counter
Read-only Indicates the total number of transmit-queues that are full.
snAgentHwBPIpcPktsBounceBack
fdry.1.1.2.12.8.1.1.14
Syntax: Counter
Read-only Indicates the number of IPC messages that are bounced back.
snAgentHwBPIpcMsgsOutOfRange
fdry.1.1.2.12.8.1.1.15
Syntax: Counter
Read-only Indicates the number of IPC messages that exceed the specified size.
snAgentHwBPIpcMsgsNoCallBack
fdry.1.1.2.12.8.1.1.16
Syntax: Counter
Read-only Indicates the number of IPC messages that have no callback functions.
snAgentHwBPIpcMsgsWrongContent
fdry.1.1.2.12.8.1.1.17
Syntax: Counter
Read-only Indicates the number of IPC messages that have the wrong content.
snAgentHwBPIpcMsgsBadPortNum
fdry.1.1.2.12.8.1.1.18
Syntax: Counter
Read-only Indicates the number of IPC messages that have a bad port number.
Name, OID, and Syntax Access Description
27-6 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
snAgentHwBPIpcPktsCheckSumError
fdry.1.1.2.12.8.1.1.19
Syntax: Counter
Read-only Indicates the number of IPC messages that have checksum errors.
snAgentHwBPIpcPktsTooLarge
fdry.1.1.2.12.8.1.1.20
Syntax: Counter
Read-only Indicates the number of IPC messages that are too large.
snAgentHwBPIpcPktsFragOutOfSync
fdry.1.1.2.12.8.1.1.21
Syntax: Counter
Read-only Indicates the number of IPC fragmented packets that are out of sync.
snAgentHwBPIpcPktsFragExceedMaxConn
fdry.1.1.2.12.8.1.1.22
Syntax: Counter
Read-only Indicates the number of IPC fragmented packets that exceed the maximum number of connections.
snAgentHwBPIpcPktsFragMallocFailure
fdry.1.1.2.12.8.1.1.23
Syntax: Counter
Read-only Indicates the number of IPC fragmented packets that have malloc failure.
snAgentHwBPIpcPktsFragAgedOut
fdry.1.1.2.12.8.1.1.24
Syntax: Counter
Read-only Indicates the number of IPC fragmented packets that are aging out.
snAgentHwBPIpcBuffersAllocFailure
fdry.1.1.2.12.8.1.1.25
Syntax: Counter
Read-only Indicates the number of buffers with alloc failures.
snAgentHwBPIpcTotalBuffersAlloc
fdry.1.1.2.12.8.1.1.26
Syntax: Counter
Read-only Indicates the total number of allocated buffers.
snAgentHwBPIpcTotalBuffersFree
fdry.1.1.2.12.8.1.1.27
Syntax: Counter
Read-only Indicates the total number of free buffers.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-7
Foundry Management Information Base Reference
SessionThe following objects define TCP and UDP sessions in a ServerIron.
Name, OID, and Syntax Access Description
snL4MaxSessionLimit
fdry.1.1.4.1.1
Syntax: Integer
Read-write
Specifies the maximum number of active sessions the ServerIron allows. An active session is an entry in the ServerIron session table. A UDP or TCP session that has become idle but has not yet timed out (according to the UDP or TCP age timer) is an active session in the table.
Valid values: Depends on the target system configuration, but cannot exceed 2000000
Default: Depends on the target system configuration
snL4TcpSynLimit
fdry.1.1.4.1.2
Syntax: Integer
Read-write
Shows the maximum number of TCP SYN requests per second per real server that the ServerIron is allowed to send. A TCP SYN request is a packet that a client sends to request a TCP connection to the server. Limiting the number of TCP SYN requests that can be sent to the server each second protects the ServerIron from TCP SYN attacks.
Valid values: 1 – 65535
Default: 65535
snL4slbGlobalSDAType
fdry.1.1.4.1.3
Syntax: Integer
Read-write
Shows the method the ServerIron uses to select a real server for client request:
• leastconnection(1) – The ServerIron sends the request to the real server that currently has the fewest number of active connections with clients.
• roundrobin(2) – The ServerIron sends the request to each server in rotation, regardless of how many connections each server has.
• weighted(3) – The ServerIron uses the weights you assign to the real servers to select a real server. The weights are based on the number of entries the ServerIron has for each server in the sessions table.
Default: leastconnection(1)
snL4slbTotalConnections
fdry.1.1.4.1.4
Syntax: Counter
Read only Shows the total number of client connections on the ServerIron since its last reboot. A connection consists of two sessions: client-to-server session and server-to-client session.
snL4slbTotalConnections
fdry.1.1.4.1.52
Syntax: Counter
Read only Shows the total number of client connections on the ServerIron since its last reboot. A connection consists of two sessions: client-to-server session and server-to-client session.
snL4slbLimitExceeds
fdry.1.1.4.1.5
Syntax: Integer
Read only Shows the number of times the TCP SYN requests from clients exceeded the configured “snL4TcpSynLimit” value.
27-8 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
Server Load Balancing Traffic InformationServer Load Balancing (SLB) is based on associations between real servers and virtual servers. The real servers are your application servers. The virtual servers have one or more virtual IP addresses (VIPs). You associate a real server with a virtual server by binding TCP/UDP ports on the real servers with TCP/UDP ports on the virtual server. When a client sends a TCP/UDP request for a port on the virtual server, the ServerIron sends the client’s request to the real server.
The following objects provide information on the SLB traffic packets that were transmitted between the server and the clients.
snL4FreeSessionCount
fdry.1.1.4.1.13
Syntax: Integer
Read only Shows the number of sessions that are still available for use. This number is the maximum number of sessions configured, minus the number of active sessions.
snL4TcpAge
fdry.1.1.4.1.28
Syntax: Integer
Read-write
Specifies how many minutes a TCP server connection can remain inactive before the session times out and the ServerIron disconnects the session.
Changing the value of this object affects only the new TCP sessions that are opened after the change is made. Current sessions will use the maximum age that was specified before the change occurred.
This object globally sets the age for all TCP ports. To override this value for a port, specify the age locally on the individual port using the device’s CLI.
Valid values: 2 – 60 minutes
Default value: 30 minutes
snL4UdpAge
fdry.1.1.4.1.29
Syntax: Integer
Read-write
Specifies how many minutes a UDP server connection can remain inactive before the session times out and the ServerIron closes the session.
Changing the value of this object affects only the new UDP sessions that are opened after the change is made. Current sessions will use the maximum age that was specified before the change occurred.
This object globally sets the age for all TCP ports. To override this value for a port, specify the age locally on the individual port using the device’s CLI.
Valid values: 2 – 60 minutes
Default: 5 minutes
Name, OID, and Syntax Access Description
snL4slbForwardTraffic
fdry.1.1.4.1.6
Syntax: Counter
Read only Shows the number of packets sent by clients to the server.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-9
Foundry Management Information Base Reference
snL4slbReverseTraffic
fdry.1.1.4.1.7
Syntax: Counter
Read only Shows the number of packets sent by servers to clients. Generally, this value is 0 unless the client is using FTP or another application that causes the server to initiate connections.
snL4slbDrops
fdry.1.1.4.1.8
Syntax: Integer
Read only Shows the total number of packets dropped by the ServerIron. This statistic includes the following:
• TCP Resets – Resets sent by the ServerIron
• Forward Resets – Resets from the client
• Unsuccessful requests – Requests sent to a TCP or UDP port that is not bound to the request’s destination VIP.
snL4slbDangling
fdry.1.1.4.1.9
Syntax: Integer
Read only Shows the number of old types of connections. For use by Foundry technical support.
snL4slbDisableCount
fdry.1.1.4.1.10
Syntax: Integer
Read only Shows the number of packets the ServerIron dropped because they were sent by a client to a VIP port that is bound to a disabled real server port.
snL4slbAged
fdry.1.1.4.1.11
Syntax: Integer
Read only Shows the total number of TCP and UDP sessions that have been aged out and closed. A session ages out when the age timer configured on the ServerIron expires.
snL4slbFinished
fdry.1.1.4.1.12
Syntax: Integer
Read only The total number of TCP connections that are either in the FIN or RST state.
snL4unsuccessfulConn
fdry.1.1.4.1.25
Syntax: Integer
Read only Shows the number of packets that were dropped due to one of the following reasons:
• A deny filter configured on the switch matched the packet, causing the switch to drop the packet.
• A client requested a TCP or UDP port that is not bound on the VI.
Name, OID, and Syntax Access Description
27-10 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
Hot StandbyHot standby redundancy is a backup feature that allows a Foundry ServerIron to serve as an automatic backup for another ServerIron. Each hot-standby pair consists of two ServerIrons. One ServerIron serves as the primary or active ServerIron, and the other serves as the secondary or standby ServerIron. The standby ServerIron becomes active only if the primary ServerIron fails due to loss of power or loss of data path. The active and standby ServerIrons must have the same SLB or TCS configuration and share the same virtual MAC address. The shared MAC address can be selected from the available pool on either the active ServerIron or the standby ServerIron.
For more information on the Hot standby feature, refer to the Foundry ServerIron Installation and Configuration Guide.
The following objects apply to the Hot standby redundancy feature.
Name, OID, and Syntax Access Description
snL4BackupInterface
fdry.1.1.4.1.14
Syntax: Integer
Read-write
Identifies which port is the hot standby port. This is the port that serves as a private link between the active and the redundant ServerIrons. The ServerIrons use this port to monitor any failover and to communicate those events to the standby.
Valid values: 0 – 26
snL4BackupMacAddr
fdry.1.1.4.1.15
Syntax: Physical address
Read-write
Identifies the associated MAC address for the backup monitoring port. The active and backup ServerIron must have the same MAC address.
snL4Active
fdry.1.1.4.1.16
Syntax: L4flag
Read only The “snL4Redundancy” object and this object are the same.
Indicates if this ServerIron has been configured as redundant or hot standby:
• false(0) – This ServerIron is the active one.
• true(1) – This ServerIron is the standby.
snL4Redundancy
fdry.1.1.4.1.17
Syntax: Integer
Read only The “snL4Active” object and this object are the same.
Indicates if this ServerIron has been configured as redundant or hot standby:
• false(0) – This ServerIron is the active one.
• true(1) – This ServerIron is the standby.
snL4Backup
fdry.1.1.4.1.18
Syntax: L4flag
Read only Indicates if the ServerIron is the backup (standby) ServerIron:
• false(0) – This ServerIron is the active one.
• true(1) – This ServerIron is the standby.
snL4BecomeActive
fdry.1.1.4.1.19
Syntax: Integer
Read only Shows the number of times this ServerIron has changed from standby to active.
snL4BecomeStandBy
fdry.1.1.4.1.20
Syntax: Integer
Read only Shows the number of times this ServerIron has changed from active to standby.
April 2008 © 2008 Foundry Networks, Inc. 27-11
Foundry Management Information Base Reference
Layer 4 PoliciesThis section presents the objects associated with Layer 4 policies. It contains the following tables:
• “Layer 4 Policy Table” on page 27-12
• “Layer 4 Policy Port Access Table” on page 27-14
Layer 4 Policy TableThe Layer 4 Policy table allows you to configure Layer 4 policies and specify the ports to which they will be applied.
snL4BackupState
fdry.1.1.4.1.21
Syntax: Integer
Read only Shows the state of the backup or redundancy link of the active or standby ServerIron:
• slbSyncComplete(0) – Synchronization is complete.
• slbSyncReqMap(1) – Port map has been synchronized.
• slbSyncreqMac(2) – MAC addresses have been synchronized.
• slbSyncreqServers(3) – Server information has been synchronized.
• slbSyncReqL4(4) – L4 packets have been synchronized.
snL4NoPDUSent
fdry.1.1.4.1.22
Syntax: Integer
Read only This object has been deprecated and is not supported.
snL4NoPDUCount
fdry.1.1.4.1.23
Syntax: Integer
Read only The number of missed Layer 4 or MAC-layer PDUs.
snL4NoPortMap
fdry.1.1.4.1.24
Syntax: Integer
Read only Shows the number of missed port map PDUs, which are PDUs used by ServerIron to discover information about the maps on the other ServerIron.
Name, OID, and Syntax Access Description
snL4PolicyTable
fdry.1.1.4.11.1
None The Layer 4 Policy Table.
snL4PolicyEntry
fdry.1.1.4.11.1.1
None An entry in the Layer 4 Policy Table.
Name, OID, and Syntax Access Description
27-12 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
snL4PolicyId
fdry.1.1.4.11.1.1.1
Syntax: Integer
Read only Specifies the ID of the policy.
Valid values: 1 – 64
snL4PolicyPriority
fdry.1.1.4.11.1.1.2
Syntax: Integer
Read-write
Shows the priority of the policy in the ServerIron:
Standalone stackable ServerIrons have the following priorities:
• normal(0) – normal priority
• high(1) – high priority
• cache(2) – priority for cache
• transparent(3) – priority for transparent
Non-stackable ServerIron Layer 4 priority values are:
• level0(0)
• level1(1)
• level2(2)
• level3(3)
• level4(4)
• level5(5)
• level6(6)
• level7(7)
snL4PolicyScope
fdry.1.1.4.11.1.1.3
Syntax: Integer
Read-write
Indicates if the policy applies to one or all ports:
• global(0) – Applies to all ports.
• local(1) – Applies to one port.
snL4PolicyProtocol
fdry.1.1.4.11.1.1.4
Syntax: Integer
Read-write
Indicates if the policy is for a UDP or TCP protocol:
• udp(0)
• tcp(1)
snL4PolicyPort
fdry.1.1.4.11.1.1.5
Syntax: Integer
Read-write
Indicates the TCP or UDP port number to which this policy will be applied.
Valid values: 1 – 65535
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-13
Foundry Management Information Base Reference
Layer 4 Policy Port Access TableThe Layer 4 Policy Port Access table lists all access policy entries. These access policies are applied to IP interfaces (ports) that have Layer 4 IP policies configured on them. IP policies are described in the “snL4PolicyTable” .
snL4PolicyRowStatus
fdry.1.1.4.11.1.1.6
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snL4PolicyPortAccessTable
fdry.1.1.4.12.1
None The IP Layer 4 Policy Interface (Port) Access Table.
snL4PolicyPortAccessEntry
fdry.1.1.4.12.1.1
None An entry in the table.
snL4PolicyPortAccessPort
fdry.1.1.4.12.1.1.1
Syntax: Integer
Read only The IP interface (port) to which the Layer 4 policy applies.
snL4PolicyPortAccessList
fdry.1.1.4.12.1.1.2
Syntax: Octet string
Read-write
This list consists of the policies configured in “snL4PolicyTable” . Each octet in the list contains a valid ID number (“snL4PolicyId” ) that identifies a policy in the snL4PolicyTable. That policy must have been created prior to the using this object.
Valid values: 1 – 64 octets
Name, OID, and Syntax Access Description
27-14 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
Health ChecksThe following are objects to check on the health of of a server. The ServerIron automatically uses a Layer 3 ping to check a server’s health. Ping is enabled by default and cannot be disabled.
Web Cache Server ObjectsTransparent Cache Switching (TCS) allows a ServerIron or Foundry backbone switch to detect and switch Web traffic to a local cache server within the network. Cache servers process Web queries faster and more efficiently by temporarily storing details about repetitive Web queries locally, reducing the number of external inquiries required to process a Web query. By limiting the number of queries sent to remote Web servers, the overall WAN access capacity required is lessened as is the overall operating cost for WAN access.
A single ServerIron (or hot standby pair) can provide transparent cache switching for up to 1024 Web cache servers. (A Web cache server must be a real server.) Foundry switches increase the reliability of transparent caching within a network by supporting redundant Web cache server configurations known as Web cache server groups, as well as supporting redundant paths to those server groups with the server backup option.
This section contains the following objects that are associated with Web cache servers:
• “Server Cache Groups” on page 27-16
• “Web Cache Group Table” on page 27-17
snL4PolicyPortAccessRowStatus
fdry.1.1.4.12.1.1.3
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snL4PingInterval
fdry.1.1.4.1.26
Syntax: Integer
Read-write
Shows how often the ServerIron sends a Layer 3 IP ping to test the basic health and reachability of the real servers. This object allows you to change the interval between the ping packets.
Valid values: 1 – 10 seconds
Default: 2 seconds
snL4PingRetry
fdry.1.1.4.1.27
Syntax: Integer
Read-write
Shows the number of times the ServerIron resends a ping to a real server that is not responding before the server fails the health check.
Valid values: 2 – 10 tries
Default: 4 tries
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-15
Foundry Management Information Base Reference
• “Web Cache Table” on page 27-18
• “Web Cache Real Server Port Table” on page 27-20
• “Web Cache Traffic Statistics Table” on page 27-21
• “Web Uncached Traffic Statistics Table” on page 27-23
Server Cache Groups All cache servers must belong to a cache group. The ServerIron uses a hashing algorithm to distribute HTTP requests among the servers in the cache group. In addition, cache groups provide automatic recovery from a failed or otherwise out-of-service Web cache server. If a Web cache server failure occurs, the ServerIron detects the failure and directs subsequent requests to the next available cache server or forwards the request directly to the WAN link. Up to four server cache groups can be assigned to a ServerIron.
Name, OID, and Syntax Access Description
snL4MaxNumWebCacheGroup
fdry.1.1.4.1.40
Syntax: Integer
Read only Shows the maximum number of Web cache groups that can be configured on this ServerIron.
snL4MaxNumWebCachePerGroup
fdry.1.1.4.1.41
Syntax: Integer
Read only Shows the maximum number of Web cache servers that a Web cache group can have.
snL4WebCacheStateful
fdry.1.1.4.1.42
Syntax: Integer
Read-write
This object has been deprecated and is no longer supported.
snL4slbRouterInterfacePortMask
fdry.1.1.4.1.39
Syntax: Integer
Read only Shows the router interface port mask.
This object is not used or supported.
snL4slbRouterInterfacePortList
fdry.1.1.4.1.51
Syntax: Octet string
Read-write
Shows Router interface port list. Each port index is a 16-bit integer in big endian order. The first 8-bit is the slot number, the other 8-bit is the port number.
27-16 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
Web Cache Group TableWeb Cache Group table lists the configured group of Web cache servers on the ServerIron. The ServerIron uses a hashing algorithm to distribute the incoming HTTP requests among the servers in the cache group. In addition, cache groups provide automatic recovery from a failed or out-of-service Web cache server. If a Web cache server failure occurs, the ServerIron detects the failure and directs subsequent requests to the next available Web cache server or forwards the request directly to the WAN link. The “snL4MaxNumWebCachePerGroup” object defines the maximum number of Web cache servers that can be configured in a group. The “snL4MaxNumWebCacheGroup” defines the maximum number of cache groups that can be configured on a Web cache server.
Name, OID, and Syntax Access Description
snL4WebCacheGroupTable
fdry.1.1.4.15.1
None Web Cache Group table.
snL4WebCacheGroupEntry
fdry.1.1.4.15.1.1
None An entry in the Web Cache Group table.
snL4WebCacheGroupId
fdry.1.1.4.15.1.1.1
Syntax: Integer
Read only Shows the ID of an entry in the Web cache group entry.
Valid values: 1 – value of the “snL4MaxNumWebCacheGroup” object.
snL4WebCacheGroupName
fdry.1.1.4.15.1.1.2
Syntax: L4ServerName
Read-write
Shows the name of the Web cache group. This name must be unique among the Web cache group names.
Valid values: 1 – 32 octets.
snL4WebCacheGroupWebCacheIpList
fdry.1.1.4.15.1.1.3
Syntax: Octet string
Read-write
Contains a list of IP addresses of the Web cache servers in the group.
Valid values: The maximum of IP addresses that a group can contain is equal to the value of the “snL4MaxNumWebCachePerGroup” object. Each IP address contains up to four octets.
snL4WebCacheGroupDestMask
fdry.1.1.4.15.1.1.4
Syntax: IpAddress
Read-write
Shows the destination hash-mask for the Web cache group. The ServerIron uses the destination hash-mask (this object) and the source hash-mask (“snL4WebCacheGroupSrcMask” ) to forward the requests to the Web cache servers. This method ensures that a particular Web site is always cached on the same Web cache server to minimizes duplication of content on the Web cache servers.
Default: 255.255.255.0
snL4WebCacheGroupSrcMask
fdry.1.1.4.15.1.1.5
Syntax: IpAddress
Read-write
Specifies the source hash-mask for the Web cache group
The ServerIron uses the destination hash-mask (this object) and the source hash-mask (“snL4WebCacheGroupSrcMask” ) to forward the requests to the Web cache servers. This method ensures that a particular Web site is always cached on the same Web cache server to minimizes duplication of content on the Web cache servers.
Default: 0.0.0.0
April 2008 © 2008 Foundry Networks, Inc. 27-17
Foundry Management Information Base Reference
Web Cache TableA Web cache server is an application server which is load-balanced by the Server Load Balancing (SLB) switch. The following table contains the configuration of the Web cache servers in the network.
snL4WebCacheGroupAdminStatus
fdry.1.1.4.15.1.1.6
Syntax: Integer
Read-write
Indicates if the Web cache group feature is enabled.
• disabled(0)
• enabled(1)
snL4WebCacheGroupRowStatus
fdry.1.1.4.15.1.1.7
Syntax: L4RowStatus
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snL4WebCacheTable
fdry.1.1.4.14.1
None The Web Cache Table.
snL4WebCacheEntry
fdry.1.1.4.14.1.1
None An entry in the Web Cache Table.
snL4WebCacheIP
fdry.1.1.4.14.1.1.1
Syntax: IpAddress
Read only Indicates the IP address of the real server that is serving as the Web cache server.
snL4WebCacheName
fdry.1.1.4.14.1.1.2
Syntax: L4ServerName
Read-write
Name of the real server that is serving as the Web cache server. This name must be unique among other Web cache server names.
Valid values: 1 – 32 octets
Name, OID, and Syntax Access Description
27-18 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
snL4WebCacheAdminStatus
fdry.1.1.4.14.1.1.3
Syntax: L4Status
Read-write
Indicates if the TCS feature is enabled in the real server that is serving as the Web cache server:
• disabled(0)
• enabled(1) – When TCS is enabled, the feature detects HTTP traffic addressed for output to the Internet and redirects the traffic to the CPU. The CPU processes the traffic and forwards it to the cache servers instead.
NOTE: You cannot enable TCS on both a global (switch) and local (interface) basis.
snL4WebCacheMaxConnections
fdry.1.1.4.14.1.1.4
Syntax: Integer
Read-write
The maximum number of connections the ServerIron can maintain in its session table for a Web cache server. When a Web cache server reaches this threshold, an SNMP trap is sent. When all the real servers in a server pool reach this threshold, additional TCP or UDP packets are dropped, and an ICMP destination unreachable message is sent.
Valid values: 0 – 1000000
Default: 1000000
snL4WebCacheWeight
fdry.1.1.4.14.1.1.5
Syntax: Integer
Read-write
Shows the Web cache server’s least-connections weight. This parameter specifies the server's weight relative to other Web cache servers in terms of the number of connections on the server. This weight is based on the number of session table entries the ServerIron has for TCP or UDP sessions with the real server. However, if a weight based on the server response time is desired, this must be disabled (set to 0).
Valid values: 0 – 65535
Default: 1
snL4WebCacheRowStatus
fdry.1.1.4.14.1.1.6
Syntax: L4Status
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snL4WebCacheDeleteState
fdry.1.1.4.14.1.1.7
Syntax: L4DeleteState
Read only Shows the state of the port being deleted:
• done(0) – The port is deleted
• waitunbind(1) – The port is in an unbind state
• waitdelete(2) – The port is in a delete state
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-19
Foundry Management Information Base Reference
Web Cache Real Server Port TableThe Web Cache Real Server Port Table consists of all the ports configured for the real server. Most attributes are configured globally for the port. Some additional and overriding local attributes can be configured in this table.
Name, OID, and Syntax Access Description
snL4WebCachePortTable
fdry.1.1.4.18.1
None Web Cache Server Port Table.
snL4WebCachePortEntry
fdry.1.1.4.18.1.1
None An entry in the Real Server Port table.
snL4WebCachePortServerIp
fdry.1.1.4.18.1.1.1
Syntax: IpAddress
Read only Shows the IP address of the Web cache server.
snL4WebCachePortPort
fdry.1.1.4.18.1.1.2
Syntax: Integer
Read only Shows the port that the Web cache server uses to listen for connections:
Valid values: 0 – 65535
snL4WebCachePortAdminStatus
fdry.1.1.4.18.1.1.3
Syntax: L4Status
Read-write
Indicates if the Web cache server port is enabled:
• disabled(0)
• enabled(1)
snL4WebCachePortRowStatus
fdry.1.1.4.18.1.1.4
Syntax: L4RowStatus
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snL4WebCachePortDeleteState
fdry.1.1.4.18.1.1.5
Syntax: L4DeleteState
Read only Shows the state of the port being deleted:
• done(0) – The port is deleted.
• waitunbind(1) – The port is in an unbind state
• waitdelete(2) – The port is in a delete state
27-20 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
Web Cache Traffic Statistics Table The Web Cache Traffic Statistics table contains traffic statistics for the client requests that go to the Web cache server.
Name, OID, and Syntax Access Description
snL4WebCacheTrafficStatsTable
fdry.1.1.4.16.1
None Web Cache Traffic Statistics Table.
snL4WebCacheTrafficStatsEntry
fdry.1.1.4.16.1.1
None An entry in the Web Cache Traffic Statistics Table.
snL4WebCacheTrafficIp
fdry.1.1.4.16.1.1.1
Syntax: IpAddress
Read only Shows the IP address of the Web cache server.
snL4WebCacheTrafficPort
fdry.1.1.4.16.1.1.2
Syntax: Integer
Read only Shows the port that the Web cache server uses to listen for connections.
Valid values: 0 – 65535
snL4WebCacheCurrConnections
fdry.1.1.4.16.1.1.3
Syntax: Integer
Read only Shows the number of the active connections between the clients and the Web cache server.
snL4WebCacheTotalConnections
fdry.1.1.4.16.1.1.4
Syntax: Integer
Read only Shows the total number of connections between clients and the Web cache server.
snL4WebCacheTxPkts
fdry.1.1.4.16.1.1.5
Syntax: Counter
Read only Shows the number of packets that was sent from the client or the Web server to the Web cache server.
snL4WebCacheRxPkts
fdry.1.1.4.16.1.1.6
Syntax: Counter
Read only Shows the number of packets that was sent from the Web cache server to the client or Web server.
snL4WebCacheTxOctets
fdry.1.1.4.16.1.1.7
Syntax: Counter
Read only Shows the number of octets that was sent from the client or Web server to the Web cache server.
snL4WebCacheRxOctets
fdry.1.1.4.16.1.1.8
Syntax: Counter
Read only Shows the number of octets that was sent from the Web cache server to the client or Web server.
April 2008 © 2008 Foundry Networks, Inc. 27-21
Foundry Management Information Base Reference
snL4WebCachePortState
fdry.1.1.4.16.1.1.9
Syntax: WebCacheState
Read only Shows the operational state of the server port:
• disabled(0) – This state has been deprecated.
• enabled(1) – The server is ready. There is no physical link to the Web cache server. The Web cache server is configured on the ServerIron but is not physically connected to the ServerIron.
• failed(2) – The server failed. The Web cache server has failed to respond to repeated Layer 3 health checks (IP pings) Typically, a real server changes from the suspect(4) state to the failed(2) state.
• testing(3) – The Web cache server is in testing mode. It is still reachable at Layer 3, but at least one of its application ports has failed to respond to its health checks. If the application port is not a TCP or UDP port known to the ServerIron, or if the Layer 7 health check for the port is disabled, only the Layer 4 health check is used. If the service is a TCP or UDP port known to the ServerIron and the Layer 7 health check is enabled, then the application must pass both health checks to avoid entering the testing(3) state.
The ServerIron continues to try to the reach the application indefinitely. Thus, if the server continues to be reachable at Layer 3, the state will remain in the testing(3) state as long as the ServerIron cannot reach the application that is failing its health check.
• suspect(4) – The Web cache server is responding slowly. The ServerIron associates a time stamp with each packet sent to and received from the Web cache servers. If the time gap between the last packet received from the server and the last packet sent to the server increases to three or four seconds, the ServerIron sends a ping (Layer 3 health check) to the server. If the server does not respond within the ping interval (configured in the “snL4PingInterval” object), the ServerIron changes the state to suspect(4) and resends the ping. The ping will be sent up to the number of retries specified by the ping retries parameter (configured in the “snL4PingRetry” object). If the server still does not respond after all the retries, the state changes to failed(2). If the server does respond, the state changes to active(6).
• shutdown(5) – The Web cache server has been forced to shutdown. This option is used to gracefully shut down the Web cache server.
• active(6) – The Web cache server responded to the Layer 3 health check (IP ping), and all the services on the real server have passed their Layer 4, and if applicable, Layer 7) health checks.
Name, OID, and Syntax Access Description
27-22 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
Web Uncached Traffic Statistics Table The Web Uncached Traffic Statistics table contains traffic statistics for the client requests that go directly to the Web server. Client requests are directed to the Web server when the Web cache server is not available.
Name, OID, and Syntax Access Description
snL4WebUncachedTrafficStatsTable
fdry.1.1.4.17.1
None Web Uncached Traffic Statistics Table.
snL4WebUncachedTrafficStatsEntry
fdry.1.1.4.17.1.1
None An entry in the Web Uncached Traffic Statistics Table.
snL4WebServerPort
fdry.1.1.4.17.1.1.1
Syntax: Integer
Read only Identifies the ServerIron port that is attached to the Web servers. This port is typically the port attached to the Border Access Point (BAP) router that goes to the rest of the network or to the Internet.
snL4WebClientPort
fdry.1.1.4.17.1.1.2
Syntax: Integer
Read only Identifies the SLB switch port or Web client port, which connects the client to the ServerIron.
snL4WebUncachedTxPkts
fdry.1.1.4.17.1.1.3
Syntax: Counter
Read only Shows the number of uncached packets that was sent from the client port to the Web server.
snL4WebUncachedRxPkts
fdry.1.1.4.17.1.1.4
Syntax: Counter
Read only Shows the number of uncached packets that was sent from the Web server to the client port.
snL4WebUncachedTxOctets
fdry.1.1.4.17.1.1.5
Syntax: Counter
Read only Shows the number of uncached octets that was sent from the client port to the Web server.
snL4WebUncachedRxOctets
fdry.1.1.4.17.1.1.6
Syntax: Counter
Read only Shows the number of uncached octets that was sent from the Web server to the client port.
snL4WebServerPortName
fdry.1.1.4.17.1.1.7
Syntax: Display string
Read only Shows the name of the Web server port.
Valid values: Up to 16 characters.
snL4WebClientPortName
fdry.1.1.4.17.1.1.8
Syntax: Display string
Read only Shows the name of the Web client port.
Valid values: Up to 16 characters.
April 2008 © 2008 Foundry Networks, Inc. 27-23
Foundry Management Information Base Reference
Real Server Objects A real server is an application server which is load-balanced by the Server Load Balancing (SLB) switch.
NOTE: The following tables have been replaced:
• The Real Server Table (snL4RealServerTable) has been deprecated and replaced by the Real Server Configuration Table (snL4RealServerCfg). Refer to page 27-24.
• Real Server Port Table (snL4RealServerPortTable) has been replaced by the Real Server Port Configuration Table (snL4RealServerPortCfg). Refer to page 27-25.
• Real Server Status Table (snL4RealServerStatusTable) has been replaced by the Real Server Statistics Table (snL4RealServerStatistic). Refer to page 27-27.
• The Real Server Port Status Table (snL4RealServerPortStatusTable) has been replaced by the Real Server Statistics Table (“snL4RealServerPortStatisticTable” ). Refer to page 27-29.
This section presents the following tables:
• “Real Server Configuration Table” on page 27-24
• “Real Server Port Configuration Table” on page 27-25
• “Real Server Statistics Table” on page 27-27
• “Real Server Port Statistic Table” on page 27-29
Additional tables for real servers are included in the section “Monitor Groups” on page 27-46. Those tables provide historical information on data samples for real servers and real server ports.
Real Server Configuration Table The Real Server Configuration table shows the configuration of real servers. A real server is an application server which is load-balanced by the SLB switch.
Name, OID, and Syntax Access Description
snL4RealServerCfgTable
fdry.1.1.4.19.1
None Real Server Configuration Table.
snL4RealServerCfgEntry
fdry.1.1.4.19.1.1
None An entry in the Real Server Configuration Table.
snL4RealServerCfgIP
fdry.1.1.4.19.1.1.1
Syntax: IpAddress
Read only Shows the IP address of the real server.
snL4RealServerCfgName
fdry.1.1.4.19.1.1.2
Syntax: L4ServerName
Read-write
Shows the name of the real server. This name must be unique among the real server names.
Valid values: 1– 32 octets
snL4RealServerCfgAdminStatus
fdry.1.1.4.19.1.1.3
Syntax: L4Status
Read-write
Enables or disables the real server:
• disabled(0)
• enabled(1)
27-24 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
Real Server Port Configuration TableReal Server Port table contains all the ports that have been configured for the real server. Beginning with IronWare TrafficWorks Switch software release 09.0.00S and later, this table also shows information for remote servers.
snL4RealServerCfgMaxConnections
fdry.1.1.4.19.1.1.4
Syntax: Integer
Read-write
Specifies the maximum number of connections the ServerIron can maintain in its session table for a real server. When a real server reaches this threshold, an SNMP trap is sent. When all the real servers in a server pool reach this threshold, additional TCP or UDP packets are dropped, and an ICMP destination unreachable message is sent.
Valid values: 0 – 1000000
Default: 1000000
snL4RealServerCfgWeight
fdry.1.1.4.19.1.1.5
Syntax: Integer
Read-write
Specifies the server's weight relative to other real servers. This weight is based on the number of session table entries the ServerIron has for TCP or UDP sessions with the real server. Set this object to 0 to disable it if a weight based on the server response time is desired.
Valid values: 0 – 65000. Setting this object to 0 disables it.
Default: 1
snL4RealServerCfgRowStatus
fdry.1.1.4.19.1.1.6
Syntax: L4RowStatus
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snL4RealServerCfgDeleteState
fdry.1.1.4.19.1.1.7
Syntax: L4DeleteState
Read only Shows the state of the port being deleted:
• done(0) – The port is deleted.
• waitunbind(1) – The port is in an unbind state
• waitdelete(2) – The port is in a delete state
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-25
Foundry Management Information Base Reference
Most attributes are configured globally for the server’s port. This table allows you to change individual port attributes and override global settings.
Name, OID, and Syntax Access Description
snL4RealServerPortCfgTable
fdry.1.1.4.20.1
None Real Server Port table.
snL4RealServerPortCfgEntry
fdry.1.1.4.20.1.1
None An entry in the Real Server Port Configuration table.
snL4RealServerPortCfgIP
fdry.1.1.4.20.1.1.1
Syntax: IpAddress
Read only Specifies the IP address for the server.
snL4RealServerPortCfgServerName
fdry.1.1.4.20.1.1.2
Syntax: L4ServerName
Read only Specifies the name of the server. This name must be unique among the other servers.
Valid values: 1 – 32 octets
snL4RealServerPortCfgPort
fdry.1.1.4.20.1.1.3
Syntax: Integer
Read only Specifies the port that the server port uses to listen for connections
Valid values: 0 – 65535
snL4RealServerPortCfgAdminStatus
fdry.1.1.4.20.1.1.4
Syntax: L4Status
Read-write
Enables or disable the application port on the server:
• disabled(0)
• enabled(1)
snL4RealServerPortCfgRowStatus
fdry.1.1.4.20.1.1.5
Syntax: L4RowStatus
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snL4RealServerPortCfgDeleteState
fdry.1.1.4.20.1.1.6
Syntax: L4DeleteState
Read only Shows the state of the port being deleted:
• done(0) – The port is deleted.
• waitunbind(1) – The port is in an unbind state
• waitdelete(2) – The port is in a delete state
27-26 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
Real Server Statistics TableReal Server Statistics table contains statistics for all real servers configured as SLB switches on the ServerIron
snL4RealServerPortCfgMaxConnections
fdry.1.1.4.20.1.1.7
Syntax: Integer
Read-write
Defines the maximum number of connections allowed per port.
Enter a value up to 1000000.
Name, OID, and Syntax Access Description
snL4RealServerStatisticTable
fdry.1.1.4.23.1
None The Real Server Statistic Table.
snL4RealServerStatisticEntry
fdry.1.1.4.23.1.1
None An entry in the Real Server Statistic Table.
snL4RealServerStatisticRealIP
fdry.1.1.4.23.1.1.1
Syntax: IpAddress
Read only Shows the IP address of the real server.
snL4RealServerStatisticName
fdry.1.1.4.23.1.1.2
Syntax: L4ServerName
Read only Shows the name of the real server.
snL4RealServerStatisticReceivePkts
fdry.1.1.4.23.1.1.3
Syntax: Counter
Read only Shows the number of packets the ServerIron has received from the real server.
snL4RealServerStatisticTransmitPkts
fdry.1.1.4.23.1.1.4
Syntax: Counter
Read only Shows the number of packets the ServerIron has sent to the real server.
snL4RealServerStatisticCurConnections
fdry.1.1.4.23.1.1.5
Syntax: Integer
Read only Shows the number of client connections currently on the real server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4RealServerStatisticTotalConnections
fdry.1.1.4.23.1.1.6
Syntax: Counter
Read only Shows the number of client connections on the real server since the last time the ServerIron was rebooted. A connection consists of two sessions: the client-to-server session and the server-to-client session.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-27
Foundry Management Information Base Reference
snL4RealServerStatisticAge
fdry.1.1.4.23.1.1.7
Syntax: Integer
Read only Shows the total number of TCP and UDP sessions that the ServerIron closed because the connection aged out. A session ages out when the age timer configured on the ServerIron expires.
snL4RealServerStatisticState
fdry.1.1.4.23.1.1.8
Syntax: Integer
Read only Shows the operational state of the real server when the statistics were obtained:
• disabled(0) – This value has been deprecated and is not used.
• enabled(1) – There is no link to the real server. The real server is configured on the ServerIron but is not physically connected to the ServerIron.
• failed(2) – The server has failed to respond to repeated Layer 3 health checks (IP pings). Typically, a real server changes to the failed(2) state from the suspect(4) state.
• testing(3) – The real server is still reachable at Layer 3, but at least one of the application ports on the real server has failed to respond to its health checks. If the application port is not a TCP or UDP port known to the ServerIron, or if the Layer 7 health check for the port is disabled, only the Layer 4 health check is used. If the service is a TCP or UDP port known to the ServerIron and the Layer 7 health check is enabled, then the application must pass both health checks to avoid entering the testing(3) state. The ServerIron continues to try to reach the application indefinitely. If the server continues to be reachable at Layer 3, the state will remain testing(3) as long as the ServerIron cannot reach the application that is failing its health check.
• suspect(4) – The ServerIron associates a time stamp with each packet sent to and received from the real servers. If the time gap between the last packet received from the real server and the last packet sent to the real server increases to three or four seconds, the ServerIron sends a Layer 3 health check (ping) to the real server. If the real server does not respond within the ping interval (configured in the “snL4PingInterval” object), the ServerIron changes the state to suspect(4) and resends the ping, up to the number of retries specified by the “snL4PingRetry” object. If the server still doesn't respond after all the retries, the state changes to failed(2). If the server does respond, the state changes to active(6).
• shutdown(5) – The forced-shutdown option has been used to gracefully shut down the real server.
• active(6) – The real server has responded to the Layer 3 health check (IP ping) and all the services on the real server have passed their Layer 4, and if applicable, Layer 7) health checks.
Name, OID, and Syntax Access Description
27-28 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
Real Server Port Statistic TableReal Server Port Statistics contains statistics for all the ports configured for all the real servers. Beginning with IronWare TrafficWorks Switch software release 09.0.00S and later and 09.1.01R and later, this table also shows information for remote servers.
snL4RealServerStatisticReassignments
fdry.1.1.4.23.1.1.9
Syntax: Integer
Read only Shows the number of times the ServerIron has reassigned the connection to another real server in the rotation because the real server that is in use has not responded to two TCP SYNs from the client.
snL4RealServerStatisticReassignmentLimit
fdry.1.1.4.23.1.1.10
Syntax: Integer
Read only Shows the number of missed connection requests (TCP SYN) the ServerIron accepts before moving the connection to another ServerIron.
snL4RealServerStatisticFailedPortExists
fdry.1.1.4.23.1.1.11
Syntax: Integer
Read only Shows the number of times a client request could not be fulfilled because the client requested a port that is not configured on the real server.
snL4RealServerStatisticFailTime
fdry.1.1.4.23.1.1.12
Syntax: Integer
Read only Show the number of seconds from the last retry attempt to connect to the real server. The object value is valid only if the real server’s state is failed(2).
snL4RealServerStatisticPeakConnections
fdry.1.1.4.23.1.1.13
Syntax: Integer
Read only Shows the highest number of simultaneous client connections on the real server since the last time the ServerIron was rebooted. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4RealServerStatisticTotalReverseConnections
fdry.1.1.4.23.1.1.14
Syntax: Integer
Read only Shows the total number of connections to the client that was initiated by the real server.
snL4RealServerStatisticCurrentSessions
fdry.1.1.4.23.1.1.15
Syntax: Integer
Read only Shows the total number of open sessions on the ServerIron. A connection consists of two sessions: the client-to-server session and the server-to-client session.
Name, OID, and Syntax Access Description
snL4RealServerPortStatisticTable
fdry.1.1.4.24.1
None Real Server Port Statistic table.
snL4RealServerPortStatisticEntry
fdry.1.1.4.24.1.1
None An entry in the Real Server Port Statistic table.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-29
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snL4RealServerPortStatisticIP
fdry.1.1.4.24.1.1.1
Syntax: IpAddress
Read only Shows the IP address of the server where the port is located.
snL4RealServerPortStatisticPort
fdry.1.1.4.24.1.1.2
Syntax: Integer
Read only The port number that the server uses to listen for connections.
snL4RealServerPortStatisticServerName
fdry.1.1.4.24.1.1.3
Syntax: L4ServerName
Read only Shows the name of the server.
snL4RealServerPortStatisticReassignCount
fdry.1.1.4.24.1.1.4
Syntax: Integer
Read only Shows the number of times the ServerIron has reassigned the connection to another server in the rotation because the server that is in use has not responded to two TCP SYNs from the client.
Name, OID, and Syntax Access Description
27-30 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
snL4RealServerPortStatisticState
fdry.1.1.4.24.1.1.5
Syntax: Integer
Read only Shows the operational state of the server when the statistics were obtained:
• disabled(0) – This value has been deprecated and is not used.
• enabled(1) – There is no link to the server. The server is configured on the ServerIron but is not physically connected to the ServerIron.
• failed(2) – The server has failed to respond to repeated Layer 3 health checks (IP pings). Typically, a server changes to the failed(2) state from the suspect(4) state.
• testing(3) – The server is still reachable at Layer 3, but at least one of the application ports on the server has failed to respond to its health checks. If the application port is not a TCP or UDP port known to the ServerIron or if the Layer 7 health check for the port is disabled, only the Layer 4 health check is used. If the service is a TCP or UDP port known to the ServerIron and the Layer 7 health check is enabled, then the application must pass both health checks to avoid entering the testing(3) state. The ServerIron continues to try to reach the application indefinitely. If the server continues to be reachable at Layer 3, the state will remain testing(3) as long as the ServerIron cannot reach the application that is failing its health check.
• suspect(4) – The ServerIron associates a time stamp with each packet sent to and received from the servers. If the time gap between the last packet received from the server and the last packet sent to the server increases to three or four seconds, the ServerIron sends a Layer 3 health check (ping) to the server. If the server does not respond within the ping interval (configured in the “snL4PingInterval” object) the ServerIron changes the state to suspect(4) and resends the ping, up to the number of retries specified by the “snL4PingRetry” object. If the server still doesn't respond after all the retries, the state changes to failed(2). If the server does respond, the state changes to active(6).
• shutdown(5) – The forced-shutdown option has been used to gracefully shut down the server.
• active(6) – The server has responded to the Layer 3 health check (IP ping), and all the services on the server have passed their Layer 4, and if applicable, Layer 7) health checks.
• unbound(7) – The unbind action is complete.
• awaitUnbind(8) – The unbind action has been issued and is waiting for completion.
• awaitDelete(9) – The delete action has been issued and is waiting for completion.
Await actions occur because ServerIron sends a command from MP to all BPs and needs to wait for all BPs to have gracefully synced with other BPs that, for example, are deleting real servers, etc.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-31
Foundry Management Information Base Reference
Virtual Server ObjectsThe SLB switch serves as the front-end for real servers and load balances the real servers. To allow the SLB switches to perform this function, virtual servers should be configured on the ServerIron and must be bound to their related real servers. The virtual servers are visible to the clients while real servers are hidden by the virtual servers
This section presents the following tables for virtual servers:
snL4RealServerPortStatisticFailTime
fdry.1.1.4.24.1.1.6
Syntax: Integer
Read only This object applies only ports whose operational state is failed(2).
Shows the number of seconds that has elapsed since the last time the port tried to re-establish connection with the server.
snL4RealServerPortStatisticCurrentConnection
fdry.1.1.4.24.1.1.7
Syntax: Integer
Read only Shows the number of client connections currently on the this port of the server. A connection consists of two sessions, the client-to-server session and the server-to-client session.
snL4RealServerPortStatisticTotalConnection
fdry.1.1.4.24.1.1.8
Syntax: Counter
Read only Shows the number of client connections on the server since the last time the ServerIron rebooted. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4RealServerPortStatisticRxPkts
fdry.1.1.4.24.1.1.9
Syntax: Counter
Read only Shows the number of packets that the ServerIron has received from the server.
snL4RealServerPortStatisticTxPkts
fdry.1.1.4.24.1.1.10
Syntax: Counter
Read only Shows the number of packets the ServerIron has sent to the server.
snL4RealServerPortStatisticRxBytes
fdry.1.1.4.24.1.1.11
Syntax: Counter
Read only Shows the number of bytes the ServerIron has received from the server.
snL4RealServerPortStatisticTxBytes
fdry.1.1.4.24.1.1.12
Syntax: Counter
Read only Shows the number of bytes the ServerIron has sent to the server.
snL4RealServerPortStatisticPeakConnection
fdry.1.1.4.24.1.1.13
Syntax: Integer
Read only Shows the highest number of simultaneous client connections on the server since the last time the ServerIron was rebooted. A connection consists of two sessions: the client-to-server session and the server-to-client session.
Name, OID, and Syntax Access Description
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Layer 4 Switch Group
• “Virtual Server Configuration Table” on page 27-33
• “Virtual Server Port Configuration Table” on page 27-35
• “Virtual Server Statistic Table” on page 27-37
NOTE: The following tables have been replaced:
• The Virtual Server Table (snL4VirtualServerTable) has been replaced by the Virtual Server Configuration Table (snL4VirtualServerCfg). Refer to page 27-33.
• The Virtual Server Port Table (snL4VirtualServerPortTable) has been replaced by the Virtual Server Port Configuration Table (snL4VirtualServerPortCfg). Refer to page 27-35.
• The Virtual Server Status Table (snL4VirtualServerStatusTable) has been replaced by the Virtual Server Statistics Table (snL4VirtualServerStatistic). Refer to page 27-37.
• The Virtual Server Port Status Table (snL4VirtualServerPortStatusTable) has been replaced by the Virtual Server Port Statistics Table (snL4VirtualServerPortStatisticTable). Refer to page 27-39.
Additional tables for virtual servers are included in the section “Monitor Groups” on page 27-46. Those tables provide historical information on data samples for virtual servers and virtual server ports.
Virtual Server Configuration TableThe Virtual Server Configuration table allows you to configure virtual servers on the ServerIron.
Name, OID, and Syntax Access Description
snL4VirtualServerCfgTable
fdry.1.1.4.21.1
None The Virtual Server Configuration table.
snL4VirtualServerCfgEntry
fdry.1.1.4.21.1.1
None An entry in the Virtual Server Configuration table.
snL4VirtualServerCfgVirtualIP
fdry.1.1.4.21.1.1.1
Syntax: IpAddress
Read only Specifies the virtual server IP Address.
snL4VirtualServerCfgName
fdry.1.1.4.21.1.1.2
Syntax: L4ServerName
Read-write
Specifies the name of the virtual server. This name must be unique among the other virtual servers.
Valid values: 1 – 32 octets
snL4VirtualServerCfgAdminStatus
fdry.1.1.4.21.1.1.3
Syntax: L4Status
Read-write
Indicates if the virtual server feature is enabled on the ServerIron:
• disabled(0)
• enabled(1)
Default: enabled(1)
April 2008 © 2008 Foundry Networks, Inc. 27-33
Foundry Management Information Base Reference
snL4VirtualServerCfgSDAType
fdry.1.1.4.21.1.1.4
Syntax: Integer
Read-write
Specifies the load-balancing or Session Distribution Algorithm method that the ServerIron uses to select a real server for a client request. The following methods are supported:
• default(0) – The ServerIron uses the global SDAType configured (snL4SlbGlobalSDAType)
• leastconnection(1) – The ServerIron sends the request to the real server that currently has the fewest active connections with clients.
• roundrobin(2) – The ServerIron sends the request to each real server in rotation, regardless of how many connections or sessions each real server has.
• weighted(3) – The ServerIron uses the weights you assign to the real servers to select a real servers. The weights are based on the number of session table entries the switch has for each server.
Default: default(0)
snL4VirtualServerCfgRowStatus
fdry.1.1.4.21.1.1.5
Syntax: L4RowStatus
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snL4VirtualServerCfgDeleteState
fdry.1.1.4.21.1.1.6
Syntax: L4DeleteState
Read only Shows the state of the port being deleted:
• done(0) – The port is deleted.
• waitunbind(1) – The port is in an unbind state.
• waitdelete(2) – The port is in a delete state.
Name, OID, and Syntax Access Description
27-34 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
Virtual Server Port Configuration Table The Virtual Server Port Configuration Table contains all the ports configured for the virtual server. This table allows you to configure attributes for individual ports and override global attributes for those ports.
snL4VirtualServerCfgSymPriority
fdry.1.1.4.21.1.1.7
Syntax: Integer
Read-write
When a pair of SLB switches are configured to provide redundancy for individual virtual IP addresses (VIPs), an symmetric SLB priority must be specified on each switch for each of the VIPs. The switch with the higher priority for a given VIP is the default active switch for that VIP. The other switch is the default standby for the VIP.
It is recommended that you use a priority of 2 (instead of 1) as a low priority or 254 (instead of 255) as a high priority. This method would make it easy to force a failover of the high priority switch to a low priority switch by simply changing the priority on one of the switches.
For example, we can force a failover by changing the priority on the high priority switch from 254 to 1. Since the priority on the low priority switch is 2, the low priority switch takes over for the VIP. Likewise, we can force the low priority switch to take over by changing its priority to 255, since the priority on the high priority switch is only 254.
Valid values: 0 – 255
Default: 0
Name, OID, and Syntax Access Description
snL4VirtualServerPortCfgTable
fdry.1.1.4.22.1
None Virtual Server Port Configuration table.
snL4VirtualServerPortCfgEntry
fdry.1.1.4.22.1.1
None An entry in the Virtual Server Port Configuration table.
snL4VirtualServerPortCfgIP
fdry.1.1.4.22.1.1.1
Syntax: IpAddress
Read only Indicates the IP address of the virtual server where the port is located.
snL4VirtualServerPortCfgPort
fdry.1.1.4.22.1.1.2
Syntax: Integer
Read only Specifies the port that the virtual server (SLB switch) uses to listen for connections from clients.
Valid values: 0 – 65535
snL4VirtualServerPortCfgServerName
fdry.1.1.4.22.1.1.3
Syntax: L4ServerName
Read only Specifies the name of the virtual server. This name must be different from the names of other virtual servers.
Valid values: 1 – 32 octets
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-35
Foundry Management Information Base Reference
snL4VirtualServerPortCfgAdminStatus
fdry.1.1.4.22.1.1.4
Syntax: L4Status
Read-write
Enables or disables the port on the virtual server for accepting client requests and load balancing those request among the real servers.
• disable(0)
• enable(1)
Default: enable(1)
snL4VirtualServerPortCfgSticky
fdry.1.1.4.22.1.1.5
Syntax: L4Status
Read-write
Enables or disables the “sticky” feature. If enabled, the ServerIron sends all requests from the same client to this application and to the same real server during the current session. By default, the ServerIron sends a client request to the next available real server, based on the load balancing method. This is true regardless of whether the client has already sent a request for the same application. If the switch has to send all of a client requests for a given application to the same real server during a client session with the server, set this object to enable(1) for the application port.
Set this object and the “snL4VirtualServerPortCfgConcurrent” object to enable(1), on ServerIron FTP ports that use passive FTP:
• disable(0)
• enable(1)
Default: disable(0)
snL4VirtualServerPortCfgConcurrent
fdry.1.1.4.22.1.1.6
Syntax: L4Status
Read-write
Enables or disables the port for concurrent connections. A port that allows concurrent connections can have more than one connection open to the same client at the same time.
The concurrent feature allows a client to have sessions on different application ports on the same real server at the same time. When an application port is enabled to be concurrent, the real server can open additional concurrent TCP or UDP sessions with the client using arbitrary TCP or UDP port numbers.
Set this object and the “snL4VirtualServerPortCfgSticky” object to enable(1) on ServerIron FTP ports that use passive FTP:
• disable(0)
• enable(1)
Default: disable(0)
Name, OID, and Syntax Access Description
27-36 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
Virtual Server Statistic Table Virtual Server Statistics table contains statistics for all the virtual servers configured in the ServerIron.
snL4VirtualServerPortCfgRowStatus
fdry.1.1.4.22.1.1.7
Syntax: L4RowStatus
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
snL4VirtualServerPortCfgDeleteState
fdry.1.1.4.22.1.1.8
Syntax: L4DeleteState
Read only Shows the state of the port being deleted:
• done(0) – The port is deleted.
• waitunbind(1) – The port is in an unbind state.
• waitdelete(2) – The port is in a delete state.
Name, OID, and Syntax Access Description
snL4VirtualServerStatisticTable
fdry.1.1.4.25.1
None The Virtual Server Statistic Table.
snL4VirtualServerStatisticEntry
fdry.1.1.4.25.1.1
None An entry in the Virtual Server Statistic Table.
snL4VirtualServerStatisticIP
fdry.1.1.4.25.1.1.1
Syntax: IpAddress
Read only Shows the IP address of the virtual server.
snL4VirtualServerStatisticName
fdry.1.1.4.25.1.1.2
Syntax: L4ServerName
Read only Shows the name of the virtual server.
snL4VirtualServerStatisticReceivePkts
fdry.1.1.4.25.1.1.3
Syntax: Counter
Read only Shows the number of packets the ServerIron has received from the real server.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-37
Foundry Management Information Base Reference
snL4VirtualServerStatisticTransmitPkts
fdry.1.1.4.25.1.1.4
Syntax: Counter
Read only Shows the number of packets the ServerIron has sent to the real server.
snL4VirtualServerStatisticTotalConnections
fdry.1.1.4.25.1.1.5
Syntax: Counter
Read only Shows the number of client connections on the virtual server since the last time the ServerIron was booted. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4VirtualServerStatisticReceiveBytes
fdry.1.1.4.25.1.1.6
Syntax: Counter64
Read only The number of bytes the switch has received from the real server.
snL4VirtualServerStatisticTransmitBytes
fdry.1.1.4.25.1.1.7
Syntax: Counter64
Read only The number of bytes the switch has sent to the real server
snL4VirtualServerStatisticSymmetricState
fdry.1.1.4.25.1.1.8
Syntax: Integer
Read only Shows which ServerIron is the active one:
• other(3) – Not the active ServerIron
• active(5) – Active ServerIron
snL4VirtualServerStatisticSymmetricPriority
fdry.1.1.4.25.1.1.9
Syntax: Integer
Read only Shows the Symmetric SLB priority configured on the ServerIron.
snL4VirtualServerStatisticSymmetricKeep
fdry.1.1.4.25.1.1.10
Syntax: Integer
Read only This object is applicable only to the active ServerIrons.
Shows the number of times an SSLB backup has failed to communicate with the active ServerIron. By default, the counter is incremented by 1 every 400 milliseconds, if the backup switch is responding slowly to the active switch’s keepalive message. The counter is reset to 0 each time the backup switch replies to a keepalive message. If the counter exceeds the maximum number allowed (20 by default, thus 8 seconds), the standby switch takes over as the new active switch. Normally, this field almost always contains 0.
snL4VirtualServerStatisticSymmetricActivates
fdry.1.1.4.25.1.1.11
Syntax: Counter
Read only The number of times this ServerIron has become the active switch.
Name, OID, and Syntax Access Description
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Layer 4 Switch Group
Virtual Server Port Statistics Table Virtual Server Port Statistics table contains statistics for all the ports configured for all the virtual servers.
snL4VirtualServerStatisticSymmetricInactives
fdry.1.1.4.25.1.1.12
Syntax: Counter
Read only Shows the number of times this ServerIron has changed from being the active switch to the backup switch.
snL4VirtualServerStatisticSymmetricBestStandbyMacAddr
fdry.1.1.4.25.1.1.13
Syntax: Physical address
Read only Shows the MAC address of the backup ServerIron with the second-highest priority. This ServerIron will become the active switch if a failover occurs.
snL4VirtualServerStatisticSymmetricActiveMacAddr
fdry.1.1.4.25.1.1.14
Syntax: Physical address
Read only Shows the MAC address of the active ServerIron with the highest priority. This ServerIron will become the backup switch if a failover occurs.
Name, OID, and Syntax Access Description
snL4VirtualServerPortStatisticTable
fdry.1.1.4.26.1
None The Virtual Server Port Statistic table.
snL4VirtualServerPortStatisticEntry
fdry.1.1.4.26.1.1
None An entry in the Virtual Server Port Statistic table.
snL4VirtualServerPortStatisticIP
fdry.1.1.4.26.1.1.1
Syntax: IpAddress
Read only The IP address of the virtual server that the port is located.
snL4VirtualServerPortStatisticPort
fdry.1.1.4.26.1.1.2
Syntax: Integer
Read only Shows the ID of the port that the virtual server (SLB switch) uses to listen for connections.
snL4VirtualServerPortStatisticServerName
fdry.1.1.4.26.1.1.3
Syntax: L4ServerName
Read only Shows the name of the virtual server.
snL4VirtualServerPortStatisticCurrentConnection
fdry.1.1.4.26.1.1.4
Syntax: Integer
Read only Shows the number of client connections currently on the virtual server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-39
Foundry Management Information Base Reference
Bind TableVirtual servers must be bound to real servers. The Bind table contains information about the bindings between the virtual servers (external or front-end servers visible to clients) and real or application servers (servers that serve the client requests).
L4 Bind Table
NOTE: This table has been deprecated. Use the snL4VirtualServerBindTable instead.
snL4VirtualServerPortStatisticTotalConnection
fdry.1.1.4.26.1.1.5
Syntax: Counter
Read only The number of client connections on the virtual server since the last time the ServerIron was rebooted. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4VirtualServerPortStatisticPeakConnection
fdry.1.1.4.26.1.1.6
Syntax: Integer
Read only The highest number of connections the VIP has had at any time.
Name, OID, and Syntax Access Description
snL4BindTable
fdry.1.1.4.6.1
None The Bind table.
snL4BindEntry
fdry.1.1.4.6.1.1
None An entry in the Bind table.
snL4BindIndex
fdry.1.1.4.6.1.1.1
Syntax: Integer
Read only The index for this entry. This must be unique and care must be taken to assign an unused index when creating an entry.
snL4BindVirtualServerName
fdry.1.1.4.6.1.1.2
Syntax: L4ServerName
Read-write
Indicates the name of the virtual server.
Valid values: 1 – 32 octets
snL4BindVirtualPortNumber
fdry.1.1.4.6.1.1.3
Syntax: Integer
Read-write
Specifies the TCP or UDP port number on the virtual server that will be bound to the real server.
Valid values: 0 – 65535
snL4BindRealServerName
fdry.1.1.4.6.1.1.4
Syntax: L4ServerName
Read-write
Indicates the name of the real server that has been configured on the ServerIron.
Valid values: 1 – 32 octets
Name, OID, and Syntax Access Description
27-40 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
L4 Virtual Server Bind TableThis table replaces the snL4BindTable.
snL4BindRealPortNumber
fdry.1.1.4.6.1.1.5
Syntax: Integer
Read-write
Specifies the TCP or UDP port number of the real server to which the virtual port is bound.
Valid values: 0 – 65535
snL4BindRowStatus
fdry.1.1.4.6.1.1.6
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• delete(3) – Delete the row
• create(4) – Create a new row
• modify(5) – Modify an existing row
If the row exists, then a SET with a value of create(4) returns a "bad value" error. Deleted rows are removed from the table immediately.
The following values can be returned on reads:
• noSuch(0) – No such row
• invalid(1) – Row is inoperative
• valid(2) – Row exists and is valid
Name, OID, and Syntax Access Description
snL4VirtualServerBindTable
fdry.1.1.4.6.2
N/A The Virtual Server Bind Table.
snL4VirtualServerBindEntry
fdry.1.1.4.6.2.1
N/A An entry in the snL4VirtualServerBindTable.
snL4BindingRealServerIP
fdry.1.1.4.6.2.1.1
Syntax: IpAddress
Read only The IP address of the real server that will be bound to the virtual server.
snL4BindingRealServerPort
fdry.1.1.4.6.2.1.2
Syntax: Integer
Read only The port on the real server that will be bound to the virtual server.
snL4BindingRealServerName
fdry.1.1.4.6.2.1.3
Syntax: L4ServerName
Read-write
The name of the real server.
snL4BindingVirtualServerIP
fdry.1.1.4.6.2.1.4
Syntax: IpAddress
Read-write
The IP address of the virtual server to which the real server will be bound.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-41
Foundry Management Information Base Reference
GSLB Site Remote ServerIron Configuration TableGlobal Server Load Balancing (GSLB) enables a ServerIron to add intelligence to authoritative Domain Name Servers (DNSs) by serving as a proxy to the servers. As a DNS proxy, the GSLB ServerIron evaluates the server IP addresses in the replies from the DNS for which the ServerIron is a proxy. Based on the results of the evaluation, the GSLB ServerIron can change the order of the addresses in the reply so that the “best” host address for the client is first on the list.
The GSLB Site Remote ServerIron Configuration table contains the configuration of ServerIrons that act as DNS proxies to the clients. They also intercept the IP addresses replied by the DNS authoritative servers to select the best address for the requesting client.
snL4BindingVirtualServerPort
fdry.1.1.4.6.2.1.5
Syntax: Integer
Read-write
The port on the virtual server to which the real server will be bound.
snL4BindingVirtualServerName
fdry.1.1.4.6.2.1.6
Syntax: L4ServerName
Read only The name of the virtual server.
snL4BindingRowStatus
fdry.1.1.4.6.2.1.7
Syntax: Integer
Read-write
Creates or delete a bind entry:
• valid(1)
• waiting-for-delete(2)
• delete(3)
• create(4)
Name, OID, and Syntax Access Description
snL4GslbSiteRemoteServerIronTable
fdry.1.1.4.27.1
None The GSLB Remote ServerIron Configuration Table.
snL4GslbSiteRemoteServerIronEntry
fdry.1.1.4.27.1.1
None An entry in the GSLB Remote ServerIron Configuration table.
snL4GslbSiteRemoteServerIronIP
fdry.1.1.4.27.1.1.1
Syntax: IpAddress
Read only Specifies the management IP address of the remote ServerIron in a site. This address must not be any of the configured VIPs.
Name, OID, and Syntax Access Description
27-42 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
snL4GslbSiteRemoteServerIronPreference
fdry.1.1.4.27.1.1.2
Syntax: Integer
Read-write
Specifies the preference of a remote ServerIron. This metric is a numeric preference value, that is assigned to each site ServerIron. It is used to select that ServerIron if the previous metrics do not select a best site. The GSLB policy prefers the site ServerIron with the highest administrative preference. The preference allows to do the following.
• Temporarily change the preference of a ServerIron site to accommodate changing network conditions. For example, if sites are offering proxy content service, the link between a site proxy server farm and the content origin may be highly congested, making that site less desirable. This factor is not visible to the ServerIrons and thus cannot be reflected in the other GSLB metrics.
• Temporarily disqualify a site ServerIron from being selected, without otherwise changing the site configuration or the GSLB ServerIron configuration. For example, maintenance can be performed on the site ServerIron without making network changes. In this case, set the preference to 0.
• A GSLB ServerIron can be biased, that is, it can be configured as a site ServerIron (for locally configured VIPs) to always favor itself as the best site. In this case, assign a preference of 255 to the site for the GSLB ServerIron itself, and assign a lower preference to the other site ServerIrons, or use the default (128) for those sites.
The administrative preference is disabled by default, which means it is not included as one of the GSLB metrics. When this metric is enabled, the default administrative preference for sites is applied. It can be changed on an individual site basis."
Valid values: 0 – 255
Default: 128
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-43
Foundry Management Information Base Reference
GSLB DNS Zone Information TableThe GSLB DNS zone information table contains show gslb dns zone and show gslb dns detail information.
Name, OID, and Syntax Access Description
snL4GslbDnsZonesInfoTable
fdry.1.1.4.30.1
None The GSLB DNS Zone Information Table.
snL4GslbDnsZonesEntry
fdry.1.1.4.30.1.1
None An entry in the GSLB DNS Zone Information Table.
snL4GslbDnsZoneName
fdry.1.1.4.30.1.1.1
Syntax: Display string
Read only Specifies the GSLB DNS zone name.
Value values 1 - 64.
snL4GslbDnsZoneHostName
fdry.1.1.4.30.1.1.2
Syntax: Display string
Read-only Specifies one of the hosts in the GSLB DNS zone.
Valid values: 1 – 64
snL4GslbDnsZoneHostIpAddr
fdry.1.1.4.30.1.1.3
Syntax: IpAddress
Read-only Specifies the prefix IP address.
snL4GslbDnsZoneHostAlias
fdry.1.1.4.30.1.1.4
Syntax: Display string
Read-only Specifies the GSLB DNS zone host Alias; one of the hosts in the GSLB DNS zone.
snL4GslbDnsZoneHostSvrIpSouce
fdry.1.1.4.30.1.1.5
Syntax: Integer
Read-only Indicates how the ServerIron learned the address.
{ cfg(1), fromDns(2), cfgNfromDns(3) }
snL4GslbDnsZoneHostSvrIpType
fdry.1.1.4.30.1.1.6
Syntax: Integer
Read-only Indicates what type of IP address; virtual IP or Real IP.
{ vip(1), realip(2) }
snL4GslbDnsZoneHostSvrState
fdry.1.1.4.30.1.1.7
Syntax: Integer
Read-only Indicates the state of the server.
{ down(0), active(1) }
snL4GslbDnsZoneHostSvrLocation
fdry.1.1.4.30.1.1.8
Syntax: Integer
Read-only Indicates the geographic location of the server..
{ asia(1), europe(2), northAm(3), southAm(4) }
snL4GslbDnsZoneHostSvrTcpRtt
fdry.1.1.4.30.1.1.9
Syntax: Integer
Read-only Indicates the round-trip time of the Layer 4 health check to the TCP port. This FlashBack value is in multiple of a 100us.
27-44 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
snL4GslbDnsZoneHostSvrAppRtt
fdry.1.1.4.30.1.1.10
Syntax: Integer
Read-only Indicates the round-trip time of the Layer 7 (application layer) health check . This FlashBack value is in multiple of a 100us.
snL4GslbDnsZoneHostSvrRespCnt
fdry.1.1.4.30.1.1.11
Syntax: Counter64
Read-only Indicates the number of times the GSLB ServerIron has selected this server as the best server and thus placed the server's IP address at the top of the list in the DNS replies.
snL4GslbDnsZoneHostSvrRespPcent
fdry.1.1.4.30.1.1.12
Syntax: Display string
Read-only Indicates the percentage of times the GSLB ServerIron has selected this server as the best server and thus placed the server's IP address at the top of the list in the DNS replies.
snL4GslbDnsZoneSISiteName
fdry.1.1.4.30.1.1.13
Syntax: Display string
Read-only Indicates the site name of the ServerIron.
snL4GslbDnsZoneSIName
fdry.1.1.4.30.1.1.14
Syntax: Display string
Read-only Indicates the site ServerIron name.
ssnL4GslbDnsZoneSIMgmtIpAddr
fdry.1.1.4.30.1.1.15
Syntax: IpAddress
Read-only Indicates the site ServerIron management IP address.
snL4GslbDnsZoneSiteWeight
fdry.1.1.4.30.1.1.16
Syntax: Integer
Read-only Indicates the weight of the site.
snL4GslbDnsZoneSessionUtil
fdry.1.1.4.30.1.1.17
Syntax: Integer
Read-only Indicates the percentage of the ServerIron session capacity that is in use.
snL4GslbDnsZoneAvailSessions
fdry.1.1.4.30.1.1.18
Syntax: Counter
Read-only Indicates the number of unused sessions in the ServerIron session table.
snL4GslbDnsZonePreference
fdry.1.1.4.30.1.1.19
Syntax: Integer
Read-only Indicates the numeric preference value for this site ServerIron. The preference can be used by the GSLB policy to select a site.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-45
Foundry Management Information Base Reference
Monitor GroupsThe monitor groups includes tables that control the periodic statistical sampling of data. Data is collected for real servers, virtual servers, real server ports, and virtual server ports. The data is then placed in the appropriate tables. Each entry in any of the tables is equal to one data sample. An entry identifies the sample’s data source, polling period, and other information.
If the probe keeps track of the time of day when collecting data samples, it should take the first sample when the next hour begins.
The probe is encouraged to add two entries per monitored interface upon initialization. One entry should describe a short term polling period, the other, a long term polling period. Suggested intervals for the entries are 30 seconds for the short term polling period and 30 minutes for the long term period.
The monitor groups are presented in the following sections:
• “Real Server History Control Table” on page 27-46
• “Real Server History Group” on page 27-48
• “Real Server Port History Control Group” on page 27-50
• “Real Server Port History Group” on page 27-52
• “Virtual Server History Control Group” on page 27-53
• “Virtual Server History Table” on page 27-55
• “Virtual Server Port History Control Table” on page 27-56
• “Virtual Server Port History Table” on page 27-58
Real Server History Control TableReal Server History Control Table contains objects that control the collection of data samples for real servers.
Name, OID, and Syntax Access Description
snL4RealServerHistoryControlTable
fdry.1.1.4.28.1
None The Real Server History Control Table
snL4RealServerHistoryControlEntry
fdry.1.1.4.28.1.1
None An entry in the Real Server History Control Table.
snL4RealServerHistoryControlIndex
fdry.1.1.4.28.1.1.1
Syntax: Integer
Read only An index that uniquely identifies an entry in this table. Each entry defines a set of samples at a particular interval for a real server on the ServerIron.
Valid values: Up to 65535 entries.
snL4RealServerHistoryControlDataSource
fdry.1.1.4.28.1.1.2
Syntax: Object Identifier
Read-write
This object identifies the source of the historical data that was collected for this entry. The source can be any real server on this ServerIron.
It identifies a particular instance defined in the “snL4RealServerStatisticTable” .
It may not be modified if the value of the “snL4RealServerHistoryControlStatus” object for this entry source is equal to valid(1).
27-46 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
snL4RealServerHistoryControlBucketsRequested
fdry.1.1.4.28.1.1.3
Syntax: Integer
Read-write
The requested number of data samples that will be saved for this entry. The number of samples saved in the object “snL4RealServerHistoryControlBucketsGranted” should be close to the value of this object. If the value of this object is modified, then the value of the “snL4RealServerHistoryControlBucketsGranted” object will be adjusted according to the new value of this object.
Valid values: 1 – 65535
Default: 50
snL4RealServerHistoryControlBucketsGranted
fdry.1.1.4.28.1.1.4
Syntax: Integer
Read only The number of data samples that was actually saved for this entry.
If the value of the “snL4RealServerHistoryControlBucketsRequested” object is modified, then the actual number of samples saved by this object will be adjusted accordingly.
If all the requested buckets are filled, a new bucket will be added to the table, and the oldest bucket for the entry will be deleted.
If the value of this object changes to a value less than the current value, enough of the oldest entries will be deleted so that the number of buckets does not exceed the new value of this object.
If the value of this object changes to a value greater than the current value, the number of buckets will increase but not exceed the new value of this object.
snL4RealServerHistoryControlInterval
fdry.1.1.4.28.1.1.5
Syntax: Integer
Read-write
Shows the interval, in seconds, over which the data is sampled for each bucket.
NOTE: A counter for a bucket may overflow without any indication; therefore, be sure to account for the overflow in all the counters you configure. Consider the minimum time it takes for a counter to overflow and set this object (snL4RealServerHistoryControlInterval) to a value less than the overflow interval. This is especially important for the “octets” counter in any data-source table.
You cannot modify the value of this object if the value of this entry’s “snL4RealServerHistoryControlStatus” object is equal to valid(1).
Valid values: 1 – 3600 seconds
Default: 1800 seconds
snL4RealServerHistoryControlOwner
fdry.1.1.4.28.1.1.6
Syntax: Display string
Read-write
The administrator who owns or configured this entry.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-47
Foundry Management Information Base Reference
Real Server History GroupThe Real Server History Group table contains historical data samples that were collected for real servers.
Each counter in this table counts the same event as the counters used by the “snL4RealServerStatisticEntry” ; however, the value of the counters in this table represents a cumulative sum of a sampling period.
snL4RealServerHistoryControlStatus
fdry.1.1.4.28.1.1.7
Syntax: Integer
Read-write
The state of this entry:
• valid(1)
• createRequest(2)
• underCreation(3)
• invalid(4) – When the entry is set to this state, it will be deleted from the table.
Name, OID, and Syntax Access Description
snL4RealServerHistoryTable
fdry.1.1.4.28.2
None The Real Server History Group table.
snL4RealServerHistoryEntry
fdry.1.1.4.28.2.1
None An entry in the Real Server History Group table. An entry is a historical sample of statistics on a particular real server. This sample is associated with the “snL4RealServerHistoryControlEntry” object, which sets up the parameters for a regular collection of these samples.
snL4RealServerHistoryIndex
fdry.1.1.4.28.2.1.1
Syntax: Integer
Read only Shows the index entry as identified by the “snL4RealServerHistoryControlIndex” .
snL4RealServerHistorySampleIndex
fdry.1.1.4.28.2.1.2
Syntax: Integer
Read only An index that uniquely identifies this particular sample among all samples associated with the same entry. This index starts at 1 and increases by one as each new sample is taken. There can be up to 214,748,3647 samples.
snL4RealServerHistoryIntervalStart
fdry.1.1.4.28.2.1.3
Syntax: Time ticks
Read only The value of sysUpTime at the start of the interval used to measure data samples.
If the probe keeps track of the time of day, set the data sampling to start at the beginning of the next hour.
NOTE: Following this rule may require the probe to delay the collection of the first sample for an entry, since each sample must be of the same interval. Also, data for the sample that is currently being collected is not accessible in this table until the end of its interval.
snL4RealServerHistoryReceivePkts
fdry.1.1.4.28.2.1.4
Syntax: Counter
Read only Shows the number of packets the ServerIron has received from the real server.
Name, OID, and Syntax Access Description
27-48 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
snL4RealServerHistoryTransmitPkts
fdry.1.1.4.28.2.1.5
Syntax: Counter
Read only Shows the number of packets the ServerIron has sent to the real server.
snL4RealServerHistoryTotalConnections
fdry.1.1.4.28.2.1.6
Syntax: Counter
Read only Shows the total number of client connections on the real server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4RealServerHistoryCurConnections
fdry.1.1.4.28.2.1.7
Syntax: Integer
Read only Shows the number of client connections currently on the real server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4RealServerHistoryPeakConnections
fdry.1.1.4.28.2.1.8
Syntax: Integer
Read only Shows the highest number of client connections on the real server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4RealServerHistoryReassignments
fdry.1.1.4.28.2.1.9
Syntax: Integer
Read only Shows the number of times the ServerIron has reassigned the connection to another real server in the rotation because the real server that is in use has not responded to two TCP SYNs from the client.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-49
Foundry Management Information Base Reference
Real Server Port History Control GroupReal Server Port History Control Table lists all the controls for collecting data samples for a real server port.
Name, OID, and Syntax Access Description
snL4RealServerPortHistoryControlTable
fdry.1.1.4.28.3
None Real Server Port History Control Table
snL4RealServerPortHistoryControlEntry
fdry.1.1.4.28.3.1
None An entry in the Real Server Port History Control Table.
snL4RealServerPortHistoryControlIndex
fdry.1.1.4.28.3.1.1
Syntax: Integer
Read only An index that uniquely identifies an entry in this table. Each entry defines a set of samples at a particular interval for a real server port on the ServerIron.
Valid values: Up to 65535 entries.
snL4RealServerPortHistoryControlDataSource
fdry.1.1.4.28.3.1.2
Syntax: Object Identifier
Read-write
This object identifies the source of the historical data that was collected for this entry. The source can be any real server port on this ServerIron.
It identifies a particular instance defined in the “snL4RealServerStatisticTable” .
It may not be modified if the value of the “snL4VirtualServerPortHistoryControlStatus” object for this entry source is equal to valid(1).
snL4RealServerPortHistoryControlBucketsRequested
fdry.1.1.4.28.3.1.3
Syntax: Integer
Read-write
The requested number of data samples that will be saved for this entry. The number of actual samples saved in the “snL4RealServerPortHistoryControlBucketsGranted” object should be close to the value of this object. If the value of this object is modified, then the value of the “snL4RealServerPortHistoryControlBucketsGranted” object will be adjusted according to the new value of this object.
Valid values: 1 – 65535
Default: 50
27-50 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
snL4RealServerPortHistoryControlBucketsGranted
fdry.1.1.4.28.3.1.4
Syntax: Integer
Read only The number of data samples that was actually saved for this entry.
If the value of the “snL4RealServerPortHistoryControlBucketsRequested” object is modified, then the actual number of samples saved by this object will be adjusted accordingly.
If all the requested buckets are filled, a new bucket will be added to the table, and the oldest bucket for the entry will be deleted.
If the value of this object changes to a value less than the current value, enough of the oldest entries will be deleted so that the number of buckets does not exceed the new value of this object.
If the value of this object changes to a value greater than the current value, the number of buckets will increase but will not exceed the new value of this object.
snL4RealServerPortHistoryControlInterval
fdry.1.1.4.28.3.1.5
Syntax: Integer
Read-write
Shows the interval, in seconds, over which the data is sampled for each bucket.
NOTE: A counter for a bucket may overflow without any indication; therefore, be sure to account for the overflow in all the counters you configure. Consider the minimum time it takes for a counter to overflow and set this object (snL4RealServerPortHistoryControlInterval) to a value less than the overflow interval. This is especially important for the “octets” counter in any data-source table.
You cannot modify the value of this object if the value of this entry’s “snL4RealServerPortHistoryControlStatus” object is equal to valid(1).
Valid values: 1 – 3600 seconds
Default: 1800 seconds
snL4RealServerPortHistoryControlOwner
fdry.1.1.4.28.3.1.6
Syntax: Display string
Read-write
The administrator who owns or configured this entry.
snL4RealServerPortHistoryControlStatus
fdry.1.1.4.28.3.1.7
Syntax: Integer
Read-write
The state of this entry:
• valid(1)
• createRequest(2)
• underCreation(3)
• invalid(4) – This entry will be deleted from the table if it is set to this state.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-51
Foundry Management Information Base Reference
Real Server Port History GroupThe Real Server Port History Group contains history data samples for each port on the real server.
Name, OID, and Syntax Access Description
snL4RealServerPortHistoryTable
fdry.1.1.4.28.4
None The Real Server Port History Group table.
snL4RealServerPortHistoryEntry
fdry.1.1.4.28.4.1
None An entry in the Real Server Port History Group table. An entry is a historical sample of statistics on a particular real server port. This sample is associated with the “snL4RealServerPortHistoryControlEntry” object, which sets up the parameters for the regular collection of these samples.
snL4RealServerPortHistoryIndex
fdry.1.1.4.28.4.1.1
Syntax: Integer
Read only Shows the index entry as identified by the “snL4RealServerPortHistoryControlIndex” .
snL4RealServerPortHistorySampleIndex
fdry.1.1.4.28.4.1.2
Syntax: Integer
Read only An index that uniquely identifies this particular sample among all samples associated with the same entry. This index starts at 1 and increases by one as each new sample is taken. There can be up to 214,748,3647 samples.
snL4RealServerPortHistoryIntervalStart
fdry.1.1.4.28.4.1.3
Syntax: Time ticks
Read only The value of sysUpTime at the start of the interval used to measure data samples.
If the probe keeps track of the time of day, set the data sampling to start at the beginning of the next hour.
NOTE: Following this rule may require the probe to delay the collection of the first sample for an entry, since each sample must be of the same interval. Also, data for the sample that is currently being collected is not accessible in this table until the end of its interval.
snL4RealServerPortHistoryReceivePkts
fdry.1.1.4.28.4.1.4
Syntax: Counter
Read only Shows the number of packets the ServerIron has received from the real server.
snL4RealServerPortHistoryTransmitPkts
fdry.1.1.4.28.4.1.5
Syntax: Counter
Read only Shows the number of packets the ServerIron sent to the real server.
snL4RealServerPortHistoryTotalConnections
fdry.1.1.4.28.4.1.6
Syntax: Counter
Read only Shows the total number of client connections on the real server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
27-52 © 2008 Foundry Networks, Inc. April 2008
Layer 4 Switch Group
Virtual Server History Control GroupThe Real Server History Control Table contains objects that control the collection of data samples for virtual servers.
snL4RealServerPortHistoryCurConnections
fdry.1.1.4.28.4.1.7
Syntax: Integer
Read only Shows the number of client connections currently on the real server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4RealServerPortHistoryPeakConnections
fdry.1.1.4.28.4.1.8
Syntax: Integer
Read only Shows the highest number of client connections on the real server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4RealServerPortHistoryResponseTime
fdry.1.1.4.28.4.1.9
Syntax: Integer
Read only Shows the round trip time for a response from a real server on this port.
Name, OID, and Syntax Access Description
snL4VirtualServerHistoryControlTable
fdry.1.1.4.28.5
None The Virtual Server History Control Group Table.
snL4VirtualServerHistoryControlEntry
fdry.1.1.4.28.5.1
None An entry in the Virtual Server History Control Table.
snL4VirtualServerHistoryControlIndex
fdry.1.1.4.28.5.1.1
Syntax: Integer
Read only An index that uniquely identifies an entry in this table. Each entry defines a set of samples at a particular interval for a virtual server on the ServerIron. This object can have up to 65535 entries.
snL4VirtualServerHistoryControlDataSource
fdry.1.1.4.28.5.1.2
Read-write
This object identifies the source of the historical data that was collected for this entry. The source can be any virtual server on this ServerIron.
It identifies a particular instance defined in the “snL4VirtualServerStatisticTable” .
It may not be modified if the value of the “snL4VirtualServerHistoryControlStatus” object for this entry source is equal to valid(1).
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-53
Foundry Management Information Base Reference
snL4VirtualServerHistoryControlBucketsRequested
fdry.1.1.4.28.5.1.3
Syntax: Integer
Read-write
Indicates the requested number of data samples that will be saved for this entry. The number of samples saved in the object “snL4VirtualServerHistoryControlBucketsGranted” should be close to the value of this object. If the value of this object is modified, then the value of the “snL4VirtualServerHistoryControlBucketsGranted” object will be adjusted according to the new value of this object.
Valid values: 1 – 65535
Default: 50
snL4VirtualServerHistoryControlBucketsGranted
fdry.1.1.4.28.5.1.4
Syntax: Integer
Read only The number of data samples that was actually saved for this entry.
If the value of the “snL4VirtualServerHistoryControlBucketsRequested” object is modified, then the actual number of samples saved by this object will be adjusted accordingly.
If all the requested buckets are filled, a new bucket will be added to the table, and the oldest bucket for the entry will be deleted.
If the value of this object changes to a value less than the current value, enough of the oldest entries will be deleted so that the number of buckets does not exceed the new value of this object.
If the value of this object changes to a value greater than the current value, the number of buckets will increase but not exceed the new value of this object.
snL4VirtualServerHistoryControlInterval
fdry.1.1.4.28.5.1.5
Syntax: Integer
Read-write
Shows the interval, in seconds, over which the data is sampled for each bucket.
NOTE: A counter for a bucket may overflow without any indication; therefore, be sure to account for the overflow in all the counters you configure. Consider the minimum time it takes for a counter to overflow and set this object (snL4VirtualServerHistoryControlInterval) to a value less than the overflow interval. This is especially important for the “octets” counter in any data-source table.
You cannot modify the value of this object if the value of this entry’s “snL4VirtualServerHistoryControlStatus” object is equal to valid(1).
Valid values: 1 – 3600 seconds
Default: 1800 seconds
snL4VirtualServerHistoryControlOwner
fdry.1.1.4.28.5.1.6
Syntax: Display string
Read-write
The administrator who owns or configured this entry.
Name, OID, and Syntax Access Description
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Virtual Server History TableThe Virtual Server History Group table contains historical data samples that were collected for virtual servers.
Each counter in this table identifies the same event as the counters used by the “snL4VirtualServerStatisticEntry” ; however, the value of the counters in this table represents a cumulative sum of a sampling period.
snL4VirtualServerHistoryControlStatus
fdry.1.1.4.28.5.1.7
Syntax: Integer
Read-write
The state of this entry:
• valid(1)
• createRequest(2)
• underCreation(3)
• invalid(4) – This entry will be deleted from the table if it is changed to this state.
Name, OID, and Syntax Access Description
snL4VirtualServerHistoryTable
fdry.1.1.4.28.6
None The Virtual Server History Table.
snL4VirtualServerHistoryEntry
fdry.1.1.4.28.6.1
None An entry in the Virtual Server History Group table. An entry is a historical sample of statistics on a particular virtual server. This sample is associated with the “snL4VirtualServerHistoryControlEntry” object, which sets up the parameters for a regular collection of these samples.
snL4VirtualServerHistoryIndex
fdry.1.1.4.28.6.1.1
Syntax: Integer
Read only Shows the index entry as identified by the “snL4VirtualServerHistoryControlIndex” .
snL4VirtualServerHistorySampleIndex
fdry.1.1.4.28.6.1.2
Syntax: Integer
Read only An index that uniquely identifies this particular sample among all samples associated with the same entry. This index starts at 1 and increases by one as each new sample is taken. There can be up to 214,748,3647 samples.
snL4VirtualServerHistoryIntervalStart
fdry.1.1.4.28.6.1.3
Syntax: Time ticks
Read only The value of sysUpTime at the start of the interval used to measure data samples.
If the probe keeps track of the time of day, set the data sampling to start at the beginning of the next hour.
NOTE: Following this rule may require the probe to delay the collection of the first sample for an entry, since each sample must be of the same interval. Also, data for the sample that is currently being collected is not accessible in this table until the end of its interval.
snL4VirtualServerHistoryReceivePkts
fdry.1.1.4.28.6.1.4
Syntax: Counter
Read only Shows the number of packets the ServerIron has received from the virtual server.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-55
Foundry Management Information Base Reference
Virtual Server Port History Control TableThe Virtual Server Port History Control Table lists all the controls for collecting data samples for a virtual server port.
snL4VirtualServerHistoryTransmitPkts
fdry.1.1.4.28.6.1.5
Syntax: Counter
Read only Shows the number of packets the ServerIron sent to the virtual server.
snL4VirtualServerHistoryTotalConnections
fdry.1.1.4.28.6.1.6
Syntax: Counter
Read only Shows the total number of client connections on the virtual server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4VirtualServerHistoryCurConnections
fdry.1.1.4.28.6.1.7
Syntax: Integer
Read only Shows the number of client connections currently on the virtual server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4VirtualServerHistoryPeakConnections
fdry.1.1.4.28.6.1.8
Syntax: Integer
Read only Shows the highest number of client connections on the virtual server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
Name, OID, and Syntax Access Description
snL4VirtualServerPortHistoryControlTable
fdry.1.1.4.28.7
None The Virtual Server Port History Control Table
snL4VirtualServerPortHistoryControlEntry
fdry.1.1.4.28.7.1
None An entry in the Virtual Server Port History Control Table.
snL4VirtualServerPortHistoryControlIndex
fdry.1.1.4.28.7.1.1
Syntax: Integer
Read only An index that uniquely identifies an entry in this table. Each entry defines a set of samples at a particular interval for a virtual server port on the ServerIron. This object can have up to 65535 entries.
snL4VirtualServerPortHistoryControlDataSource
fdry.1.1.4.28.7.1.2
Syntax: Object Identifier
Read-write
This object identifies the source of the historical data that was collected for this entry. The source can be any virtual server port on this ServerIron.
It identifies a particular instance defined in the “snL4VirtualServerStatisticTable” .
It may not be modified if the value of the “snL4VirtualServerPortHistoryControlStatus” object for this entry source is equal to valid(1).
Name, OID, and Syntax Access Description
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Layer 4 Switch Group
snL4VirtualServerPortHistoryControlBucketsRequested
fdry.1.1.4.28.7.1.3
Syntax: Integer
Read-write
The requested number of data samples that will be saved for this entry. The number of actual samples saved in the “snL4VirtualServerPortHistoryControlBucketsGranted” object should be close to the value of this object. If the value of this object is modified, then the value of the “snL4VirtualServerPortHistoryControlBucketsGranted” object will be adjusted according to the new value of this object.
Valid values: 1 – 65535
Default: 50
snL4VirtualServerPortHistoryControlBucketsGranted
fdry.1.1.4.28.7.1.4
Syntax: Integer
Read only The number of data samples that was actually saved for this entry.
If the value of the “snL4VirtualServerPortHistoryControlBucketsRequested” object is modified, then the actual number of samples saved by this object will be adjusted accordingly.
If all the requested buckets are filled, a new bucket will be added to the table, and the oldest bucket for the entry will be deleted.
If the value of this object changes to a value less than the current value, enough of the oldest entries will be deleted so that the number of buckets does not exceed the new value of this object.
If the value of this object changes to a value greater than the current value, the number of buckets will increase but will not exceed the new value of this object.
snL4VirtualServerPortHistoryControlInterval
fdry.1.1.4.28.7.1.5
Syntax: Integer
Read-write
Shows the interval, in seconds, over which the data is sampled for each bucket.
NOTE: A counter for a bucket may overflow without any indication; therefore, be sure to account for the overflow in all the counters you configure. Consider the minimum time it takes for a counter to overflow and set this object (snL4VirtualServerPortHistoryControlInterval) to a value less than the overflow interval. This is especially important for the “octets” counter in any data-source table.
You cannot modify the value of this object if the value of this entry’s “snL4VirtualServerPortHistoryControlStatus” object is equal to valid(1).
Valid values: 1 – 3600 seconds
Default: 1800 seconds
snL4VirtualServerPortHistoryControlOwner
fdry.1.1.4.28.7.1.6
Syntax: Display string
Read-write
The administrator who owns or configured this entry.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-57
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Virtual Server Port History Table The Virtual Server Port History Group contains history data samples for each port on the virtual server.
snL4VirtualServerPortHistoryControlStatus
fdry.1.1.4.28.7.1.7
Syntax: Integer
Read-write
The state of this entry:
• valid(1)
• createRequest(2)
• underCreation(3)
• invalid(4) – This entry will be deleted from the table if its state changes to this state.
Name, OID, and Syntax Access Description
snL4VirtualServerPortHistoryTable
fdry.1.1.4.28.8
None The Virtual Server Port History Table.
snL4VirtualServerPortHistoryEntry
fdry.1.1.4.28.8.1
None An entry in the Virtual Server Port History Group table. An entry is a historical sample of statistics on a particular virtual server port. This sample is associated with the “snL4VirtualServerPortHistoryControlEntry” object, which sets up the parameters for a regular collection of these samples.
snL4VirtualServerPortHistoryIndex
fdry.1.1.4.28.8.1.1
Syntax: Integer
Read only Shows the index entry as identified by the “snL4VirtualServerPortHistoryControlIndex” .
snL4VirtualServerPortHistorySampleIndex
fdry.1.1.4.28.8.1.2
Syntax: Integer
Read only An index that uniquely identifies this particular sample among all samples associated with the same entry. This index starts at 1 and increases by one as each new sample is taken. There can be up to 214,748,3647 samples.
snL4VirtualServerPortHistoryIntervalStart
fdry.1.1.4.28.8.1.3
Syntax: Time ticks
Read only The value of sysUpTime at the start of the interval used to measure data samples.
If the probe keeps track of the time of day, set the data sampling to start at the beginning of the next hour.
NOTE: Following this rule may require the probe to delay the collection of the first sample for an entry, since each sample must be of the same interval. Also, data for the sample that is currently being collected is not accessible in this table until the end of its interval.
snL4VirtualServerPortHistoryReceivePkts
fdry.1.1.4.28.8.1.4
Syntax: Counter
Read only Shows the number of packets the ServerIron has received from the virtual server port.
Name, OID, and Syntax Access Description
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Layer 4 Switch Group
snL4VirtualServerPortHistoryTransmitPkts
fdry.1.1.4.28.8.1.5
Syntax: Counter
Read only Shows the number of packets the ServerIron sent to the virtual server.
snL4VirtualServerPortHistoryTotalConnections
fdry.1.1.4.28.8.1.6
Syntax: Counter
Read only Shows the total number of client connections on the virtual server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4VirtualServerPortHistoryCurConnections
fdry.1.1.4.28.8.1.7
Syntax: Integer
Read only Shows the number of client connections currently on the virtual server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
snL4VirtualServerPortHistoryPeakConnections
fdry.1.1.4.28.8.1.8
Syntax: Integer
Read only Shows the highest number of client connections on the virtual server. A connection consists of two sessions: the client-to-server session and the server-to-client session.
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 27-59
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27-60 © 2008 Foundry Networks, Inc. April 2008
Chapter 28SecureIron MIB Objects
This chapter describes management information base (MIB) objects are specific to the SecureIron series switches. This section contains the following sections:
• “DOS Protection Statistics Group” on page 28-2
• “DOS Protection Cumulative Statistics Group” on page 28-3
• “SIP Filtering Statistics Group” on page 28-4
• “MAC Filtering Statistics Group” on page 28-5
• “Firewall Server Statistics Group” on page 28-6
• “Firewall Statistics for Each Layer 4 Port Group” on page 28-8
• “Firewall Server Path Information Group” on page 28-10
• “Concurrent Connection Limiting Statistics Group” on page 28-11
• “Transaction Rate Limiting Statistics Group” on page 28-12
• “Maximum Connection to Destination Statistics Group” on page 28-13
• “Deep Packet Scan Statistics Group” on page 28-14
NOTE: SecureIron MIBs are not supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
April 2008 © 2008 Foundry Networks, Inc. 28-1
Foundry Management Information Base Reference
DOS Protection Statistics GroupThis chapter describes the MIB objects in the DOS protection statistics group.
Name, OID, and Syntax Access Description
SnSciDosFilterStatistics
fdry.1.1.6.1
None DOS attack protection statistics group
SnSciDosFilterStatisticsTable
fdry.1.1.6.1.1
INDEX:
snSciDosFilterName snSciDosFilterType
None DOS attack protection filter statistics table
SnSciDosFilterEntry
fdry.1.1.6.1.1.1
None A row in the DOS attack protection filter statistics table
snSciDosFilterName
fdry.1.1.6.1.1.1.1
Syntax: Octet String
Read only Show DOS attack filter name
snSciDosFilterType
fdry.1.1.6.1.1.1.2
Syntax: Integer
Read only Show the DOS attack filter type:
1 - address-sweep
2 - deny-all-fragments
3 -- fin-with-no-ack
4 -- generic
5 -- icmp-fragment
6 -- icmp-type
7 -- ip-options
8 -- land-attack
9 -- large-icmp
10 -- ping-of-death
11-- port-scan
12 -- syn-and-fin-set
13 -- syn-fragments
14 -- tcp-no-flag
15 -- unknown-ip-protocol
16 -- xmas-tree
17 -- filter-dns
18 -- filter-sip
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SecureIron MIB Objects
DOS Protection Cumulative Statistics GroupThis chapter describes the MIB objects in the DOS protection cumulative statistics group.
snSciDosFilterPktsLogCount
fdry.1.1.6.1.1.1.3
Syntax: Counter32
Read only Show the statistics of logged packet count.
snSciDosFilterPktsDropCount
fdry.1.1.6.1.1.1.4
Syntax: Counter32
Read only Show the statistics of logged packet count
Name, OID, and Syntax Access Description
snSciCumulative
fdry.1.1.6.2
None DOS protection cumulative statistics group
snSciCumulativeStatisticsTable
fdry.1.1.6.2.1
INDEX: snSciCumFilterType
None DOS protection cumulative statistics table
snSciCumulativeStatEntry
fdry.1.1.6.2.1.1
None A row DOS protection cumulative statistics table
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 28-3
Foundry Management Information Base Reference
SIP Filtering Statistics GroupThis chapter describes the MIB objects in the SIP filtering statistics group.
snSciCumFilterType
fdry.1.1.6.2.1.1.1
Syntax: Integer
Read only Meaning of integer value:
1 - address-sweep
2 - deny-all-fragments
3 -- fin-with-no-ack
4 -- generic
5 -- icmp-fragment
6 -- icmp-type
7 -- ip-options
8 -- land-attack
9 -- large-icmp
10 -- ping-of-death
11-- port-scan
12 -- syn-and-fin-set
13 -- syn-fragments
14 -- tcp-no-flag
15 -- unknown-ip-protocol
16 -- xmas-tree
17 -- filter-dns
18 -- filter-sip
snSciCumPktsLogCount
fdry.1.1.6.2.1.1.2
Syntax: Counter64
Read only Show the cumulative count of logged packets on each DOS filter type
snSciCumPktsDropCount
fdry.1.1.6.2.1.1.3
Syntax: Counter64
Read only Read-onlyShow the cumulative count of dropped packets on each DOS filter type
Name, OID, and Syntax Access Description
snSciSipFilter
fdry.1.1.6.3
None SIP filtering group
snSciSipFilterStatisticsTable
fdry.1.1.6.3.1
None SIP filtering statistics table
Name, OID, and Syntax Access Description
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SecureIron MIB Objects
MAC Filtering Statistics GroupThis chapter describes the MIB objects in the MAC filtering statistics group.
snSciSipFilterEntry
fdry.1.1.6.3.1.1
None A row in SIP filtering statistics table
snSciSipPolicyName
fdry.1.1.6.3.1.1.1
Syntax: Octet String
Read only Show the SIP filter name
snSciSipFilterInterfaceStr
fdry.1.1.6.3.1.1.2
Syntax: Octet String
Read only Show the list of interfaces which are bound by the filter
snSciSipBadSyntaxLogCnt
fdry.1.1.6.3.1.1.3
Syntax: Counter32
Read only Show the logged count of bad syntax packets
snSciSipUndefinedMethodLogCnt
fdry.1.1.6.3.1.1.4
Syntax: Counter32
Read only Show the logged count of undefined method packets
snSciSipBadSyntaxDropCnt
fdry.1.1.6.3.1.1.5
Syntax: Counter32
Read only Show the drop count of bad syntax packets
snSciSipUndefinedMethodDropCnt
fdry.1.1.6.3.1.1.6
Syntax: Counter32
Read only Show the drop count of undefined method packets
Name, OID, and Syntax Access Description
snSciMacFilter
fdry.1.1.6.4
None MAC filtering statistics group
snSciMacFilterStatisticTable
fdry.1.1.6.4.1
INDEX: snSciMacFilterFilterNum
None MAC filtering statistics table
snSciMacFilterEntry
fdry.1.1.6.4.1.1
None An entry in MAC filtering statistics table
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 28-5
Foundry Management Information Base Reference
Firewall Server Statistics GroupThis chapter describes the MIB objects in the Firewall server statistics group.
snSciMacFilterFilterNum
fdry.1.1.6.4.1.1.1
Syntax: Integer
Read-only Show the user defined MAC filter number
snSciMacFilterSrcAddr
fdry.1.1.6.4.1.1.2
Syntax: MacAddress
Read-only Show the filter source MAC address
snSciMacFilterSrcMask
fdry.1.1.6.4.1.1.3
Read-only Show the filter source MAC address mask
snSciMacFilterDestAddr
fdry.1.1.6.4.1.1.4
Syntax: MacAddress
Read-only Show the filter destination MAC address
snSciMacFilterDestMask
fdry.1.1.6.4.1.1.5
Syntax: MacAddress
Read-only Show the filter destination MAC address mask
snSciMacFilterAction
fdry.1.1.6.4.1.1.6
Syntax: Integer
Read-only Show the action taken when packets are matched.
deny(0) - deny the packet
permit(1) - permit the packet to flow
snSciMacFilterHitCounter
fdry.1.1.6.4.1.1.7
Syntax: Counter32
Read-only Firewall statistics on each Layer 4 port
Name, OID, and Syntax Access Description
snSciFireWallServer
fdry.1.1.6.5
None Firewall server statistics group
snSciFireWallServerStatisticsTable
fdry.1.1.6.5.1
INDEX: snSciFireWallName
None Firewall server statistics table
snSciFireWallServerEntry
fdry.1.1.6.5.1.1
None An entry in Firewall server statistics table
Name, OID, and Syntax Access Description
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SecureIron MIB Objects
snSciFireWallName
fdry.1.1.6.5.1.1.1
Syntax: Octet string
Read-only Show the firewall server name
snSciFireWallServerIP
fdry.1.1.6.5.1.1.2
Syntax: IpAddress
Read-only Show the firewall server IP address
snSciFireWallServerState
fdry.1.1.6.5.1.1.3
Syntax: Integer
Read-only Show the firewall server state:
disabled(0)
enabled(1)
failed(2)
test(3)
suspect(4)
to-be-deleted(5)
active(6)
snSciFireWallCurrentConns
fdry.1.1.6.5.1.1.4
Read-only Show the count of current connections
snSciFireWallTotalConns
fdry.1.1.6.5.1.1.5
Syntax: Counter32
Read-only Show the total number of connections
snSciFireWallHost2FwPkts
fdry.1.1.6.5.1.1.6
Syntax: Integer
Read-only Show the count of packets that flows from host to firewall
snSciFireWallHost2FwOctets
fdry.1.1.6.5.1.1.7
Syntax: Counter32
Read-only Show the count of octets that flows from host to firewall
snSciFireWallFw2HostPkts
fdry.1.1.6.5.1.1.8
Syntax: Integer
Read-only Show the count of packets that flows from firewall to host
snSciFireWallFw2HostOctets
fdry.1.1.6.5.1.1.9
Syntax: Counter32
Read-only Show the count of octets that flows from firewall to host
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 28-7
Foundry Management Information Base Reference
Firewall Statistics for Each Layer 4 Port GroupThis chapter describes the MIB objects in the Firewall statistics on each Layer 4 port group.
Name, OID, and Syntax Access Description
snSciFWL4Port
fdry.1.1.6.6
None Firewall statistics on each Layer 4 port group
snSciFWL4PortStatisticsTable
fdry.1.1.6.6.1
INDEX:
1. snSciFWL4ServerName 2. snSciFWL4PortNum 3. snSciFWL4TrafficDir
None Firewall statistics Layer 4 port table
snSciFWL4PortEntry
fdry.1.1.6.6.1.1
None An entry in Firewall statistics Layer 4 port table
snSciFWL4ServerName
fdry.1.1.6.6.1.1.1
Syntax: Octet string
Read-only Show the firewall server name
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SecureIron MIB Objects
snSciFWL4PortNum
fdry.1.1.6.6.1.1.2
Syntax: Integer
Read-only Show Layer 4 port number:
ftp(21)
telnet(23)
smtp(25)
dns(53)
tftp(69)
http(80)
pop2(109)
pop3(110)
nntp(119)
ntp(123)
map4(143)
snmp(161)
dap(389)
ssl(443)
ssh(22)
tsp(554)
daps(636)
mms(1755)
radius(1812)
radius-old(1645)
port3389(3389)
sip(5060)
sips(5061)
pnm(7070)
default(65535)
snSciFWL4TrafficDir
fdry.1.1.6.6.1.1.3
Syntax: Integer
Read-only Show firewall traffic direction:
out-firewall(1)
in-firewall(2)
snSciFWL4ServerState
fdry.1.1.6.6.1.1.4
Syntax: Integer
Read-only Show the firewall server state:
disabled(0)
enabled(1)
failed(2)
test(3)
suspect(4)
to-be-deleted(5)
active(6)
April 2008 © 2008 Foundry Networks, Inc. 28-9
Foundry Management Information Base Reference
Firewall Server Path Information GroupThis chapter describes the MIB objects in the Firewall server path information group objects:
snSciFWL4CurrentConns
fdry.1.1.6.6.1.1.5
Syntax: Counter32
Read-only Show the count of current connections
snSciFWL4TotalConns
fdry.1.1.6.6.1.1.6
Syntax: Counter32
Read-only Show the total number of connections
snSciFWL4Host2FwPkts
fdry.1.1.6.6.1.1.7
Syntax: Integer
Read-only Show the count of packets that flows from host to firewall
snSciFWL4Host2FwOctets
fdry.1.1.6.6.1.1.8
Syntax: Counter32
Read-only Show the count of octets that flows from host to firewall
snSciFWL4Fw2HostPkts
fdry.1.1.6.6.1.1.9
Syntax: Integer
Read-only Show the count of packets that flows from firewall to host
Name, OID, and Syntax Access Description
snSciFireWallServerPath
fdry.1.1.6.7
None Firewall server path information group
snSciFireWallServerPathTable
fdry.1.1.6.7.1
INDEX: snSciFireWallPathNum
None Firewall server path table
snSciFireWallServerPathEntry
fdry.1.1.6.7.1.1
None A row in the firewall server path table
snSciFireWallPathNum
fdry.1.1.6.7.1.1.1
Syntax: Integer
Read only Show the firewall server path number
snSciFireWallTargetIP
fdry.1.1.6.7.1.1.2
Syntax: IpAddress
Read only Show firewall server target IP address
snSciFireWallNextHopIP
fdry.1.1.6.7.1.1.3
Syntax: IpAddress
Read only Show firewall server next hop IP address
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SecureIron MIB Objects
Concurrent Connection Limiting Statistics GroupThis chapter describes the MIB objects in the concurrent connection limiting statistics group.
snSciFireWallifIndex
fdry.1.1.6.7.1.1.4
Syntax: Integer
Read only Show firewall server interface index
snSciFireWallPathStatus
fdry.1.1.6.7.1.1.5
Syntax: Integer
Read only Show the firewall server path status:path-up (1)path-down (2)
snSciFireWallPathSentStatus
fdry.1.1.6.7.1.1.6
Syntax: Integer
Read only Show the firewall server path sending status:
sent-failed (0),
sent-successful (1)
snSciFireWallPathRecvStatus
fdry.1.1.6.7.1.1.7
Syntax: Integer
Read only Show the firewall server path receiving status:
receive-failed (0)
receive-successful (1)
snSciFireWallPathState
fdry.1.1.6.7.1.1.8
Syntax: Integer
Read only Show the firewall server path state:
disabled (0)
enabled (1)
failed (2)
test (3)
suspect (4)
snSciFireWallZone
fdry.1.1.6.7.1.1.9
Syntax: Integer
Read only Show the firewall server zone number
Name, OID, and Syntax Access Description
snSciConcurrConnLimit
fdry.1.1.6.8
None Concurrent connection limiting statistics group
snSciConcurrConnLimitStatsTable
fdry.1.1.6.8.1
INDEX: snSciConcurrConnIfIndex
None Concurrent connection limiting statistics table
SnL4SciConcurrConnEntry
fdry.1.1.6.8.1.1
None A row in the Concurrent connection limiting statistics table
Name, OID, and Syntax Access Description
April 2008 © 2008 Foundry Networks, Inc. 28-11
Foundry Management Information Base Reference
Transaction Rate Limiting Statistics GroupThis chapter describes the MIB objects in the transaction rate limiting statistics group.
snSciConcurrConnIfIndex
fdry.1.1.6.8.1.1.1
Syntax: Integer
Read-only Show the interface number that the concurrent connection limit is applied to.
snSciConcurrConnifDescr
fdry.1.1.6.8.1.1.2
Syntax: Octet String
Read-only Show the brief interface description
snSciConcurrConnPolicyName
fdry.1.1.6.8.1.1.3
Syntax: Octet string
Read-only Show concurrent connection limiting policy name
snSciConcurrConnHitCount
fdry.1.1.6.8.1.1.4
Syntax: Counter32
Read-only Show the hit count of the concurrent connection limiting policy
snSciConcurrConnDenyCount
fdry.1.1.6.8.1.1.5
Syntax: Counter32
Read-only Show the deny count of the concurrent connection limiting policy
Name, OID, and Syntax Access Description
snSciTransRateLimit
fdry.1.1.6.9
None Transaction rate limiting statistics group
snSciTransRateLimitStatsTable
fdry.1.1.6.9.1
INDEX:
1. snSciTransRateifIndex 2. snSciTransRateL4PortType
None Transaction rate limiting statistics table
snSciTransRateEntry
fdry.1.1.6.9.1.1
Read-only A row in Transaction rate limiting statistics table
snSciTransRateifIndex
fdry.1.1.6.9.1.1.1
Syntax: Integer
Show the interface number
snSciTransRateL4PortType
fdry.1.1.6.9.1.1.2
Syntax: Integer
Read-only Show the Layer 4 port type:
tcp (1)
udp (2)
Name, OID, and Syntax Access Description
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SecureIron MIB Objects
Maximum Connection to Destination Statistics GroupThis chapter describes the MIB objects in the maximum connection to destination statistics group.
snSciTransRateifDescr
fdry.1.1.6.9.1.1.3
Syntax: Octet String
Read-only Show the brief interface description
snSciTransRatePolicyName
fdry.1.1.6.9.1.1.4
Syntax: Octet string
Read-only Show the transaction rate limiting policy name
snSciTransRateHitCount
fdry.1.1.6.9.1.1.5
Syntax: Counter32
Read-only Show the transaction rate policy hit count
snSciTransRateDenyCount
fdry.1.1.6.9.1.1.6
Syntax: Counter32
Read-only Show the transaction rate policy deny count
Name, OID, and Syntax Access Description
snSciDestConnRateLimit
fdry.1.1.6.10
None Maximum connection to destination statistics group
snSciDestConnRateLimitStatsTable
fdry.1.1.6.10.1
INDEX: snSciDestConnIfIndex
None Maximum connection to destination rate limiting table
snSciDestConnEntry
fdry.1.1.6.10.1.1
None An entry in maximum connection to destination rate limiting table.
snSciDestConnIfIndex
fdry.1.1.6.10.1.1.1
Syntax: Integer
Read-only Show the interface number
snSciDestConnifDescr
fdry.1.1.6.10.1.1.2
Syntax: Octet String
Read-only Show the brief interface description
snSciDestConnPolicyName
dry.1.1.6.10.1.1.
Read-only Show the maximum connection to destination rate limiting policy name
Name, OID, and Syntax Access Description
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Deep Packet Scan Statistics GroupThis chapter describes the MIB objects in the deep packet scan Statistics group.
snSciDestConnHitCount
fdry.1.1.6.10.1.1.4
Syntax: Counter32
Read-only Show the maximum connection to destination rate limiting policy hit count
snSciDestConnDenyCount
fdry.1.1.6.10.1.1.5
Syntax: Counter32
Read-only Show the maximum connection to destination rate limiting policy deny count
Name, OID, and Syntax Access Description
snSciDeepPacketScan
fdry.1.1.6.11
None Deep packet scan statistics group
snSciDeepPacketScanTable
fdry.1.1.6.11.1
INDEX:
1. snSciDeepPktScanPolicyName 2. snSciDeepPktScanRuleIndex
None Deep packet scan statistics table
snSciDeepPacketScanEntry
fdry.1.1.6.11.1.1
None An entry in deep packet scan statistics table.
snSciDeepPktScanPolicyName
fdry.1.1.6.11.1.1.1
Syntax: Integer
Read-only Show the deep packet scan policy name
snSciDeepPktScanRuleIndex
fdry.1.1.6.11.1.1.2
Syntax: Octet String
Read-only Show the deep packet scan rule number
snSciDeepPktScanAction
fdry.1.1.6.11.1.1.3
Syntax: Integer
Read-only Show the deep packet scan rule action
snSciDeepPktScanRuleName
fdry.1.1.6.11.1.1.4
Syntax: Octet string
Read-only Show the deep packet scan rule name
snSciDeepPktScanRuleHitCnt
fdry.1.1.6.11.1.1.5
Syntax: Counter32
Read-only Show the deep packet scan rule hit count
Name, OID, and Syntax Access Description
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SecureIron MIB Objects
snSciDeepPktScanActionHitCnt
fdry.1.1.6.11.1.1.6Syntax: Counter32
Read-only Show the deep packet scan action hit count
Name, OID, and Syntax Access Description
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28-16 © 2008 Foundry Networks, Inc. April 2008
Chapter 29Wireless Features
The wgGroup (OID: fdry.1.1.3.23.1) contains MIB objects for wireless LAN features. The group is available on WLAN switches. The following sections present the objects in the MIB group.
NOTE: Wireless Features MIBs are not supported on the following products:
• BigIron RX
• NetIron XMR
• NetIron MLX
• BigIron MG8
• NetIron 40G
• NetIron IMR 640 Router
General MIB ObjectsThe following table list the general MIB objects for the wireless feature support.
Name, Identifier, and Syntax Access Description
wgMobilityId
fdry.1.1.3.23.1.1
Syntax: Integer
Read-write
Specifies the wireless mobility domain to which this WLAN switch belongs.
Valid value: 1 - 65535. Enter 0 to remove the WLAN switch from a wireless mobility domain.
wgVpnPTDeletePolicy
fdry.1.1.3.23.1.2
Syntax: Integer
Read-write
Deletes a VPN passthrough policy from the WLAN switch. enter a valid VPN passthrough policy ID to remove the policy.
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WiFi Interface TableThe WiFi Interface Table controls the wireless feature support on an WLAN switch.
Name, Identifier, and Syntax Access Description
wgIfTable
fdry.1.1.3.23.2
N/A WiFi Interface Table
wgIfEntry
fdry.1.1.3.23.2.1
N/A An entry of the WiFi Interface Table.
wgIfIndex
fdry.1.1.3.23.2.1.1
Syntax: Integer
Read-only The ifIndex value of the switch interface.
wgIfWirelessEnable
fdry.1.1.3.23.2.1.2
Syntax: Integer
Read-write
Enables or disables the wireless feature support on an interface:
• other(1)
• enable(2)
• disable(3)
The default is disable(3).
wgIfPnPLearnNewAP
fdry.1.1.3.23.2.1.3
Syntax: Integer
Read-write
Enables or disables the ability of an interface to learn new access points. This object is used by the ADC feature:
• other(1)
• enable(2)
• disable(3)
wgIfAutoPortDisable
fdry.1.1.3.23.2.1.4
Syntax: Integer
Read-write
This object is for the Automatic Port Deactivation feature. If set to enable, the interface is automatically disabled if the link status of the interface changes:
• other(1)
• enable(2)
• disable(3)
wgIfVpnPTPolicyId
fdry.1.1.3.23.2.1.5
Syntax: Integer
Read-write
This object binds a VPN Passthrough policy to the interface. To bind an interface to a VPN passthrough policy, enter it’s policy ID. It must be a valid policy number that is larger than zero. To unbind an interface to a VPN passthrough policy enter zero for the policy ID.
wgIfFullCompRoamingEnable
fdry.1.1.3.23.2.1.5
Syntax: Integer
Read-write
Indicates if full compatibility tunneling mode is enabled on the interface:
• other(1) – Other
• enable(2) – Full compatibility tunneling is enabled.
• disable(3) – Full compatibility tunneling is disabled. High performance tunneling is used.
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Wireless Features
Roaming Peer TableThe Roaming Peer Table shows information about the WLAN switch peers in a Wireless Mobility configuration.
Access Point Automatic Discovery and Configuration TableThe Access Point (AP) Automatic Discovery and Configuration (ADC) Table defines the IP address, subnet mask, and default gateway of the access point that will be assigned to an access point with the specified MAC address. This information can be pre-configured on an WLAN switch interface. When the access point that has the matching MAC address is attached to the interface, the pre-configured IP address, subnet mask, and default gateway are assigned to that access point.
Name, Identifier, and Syntax Access Description
wgRoamingPeerTable
fdry.1.1.3.23.3
N/A The Roaming Peer Table.
wgRoamingPeerEntry
fdry.1.1.3.23.3.1
N/a An entry of the Roaming Peer Table.
wgRoamingPeerIpAddress
fdry.1.1.3.23.3.1.1
Syntax: IpAddress
Read-only The IP Address of a peer.
wgRoamingPeerConnectionStatus
fdry.1.1.3.23.3.1.2
Syntax: Integer
Read-only Shows the state of the connection;
• other(1)
• configured(2)
• established(3)
wgRoamingPeerRowStatus
fdry.1.1.3.23.3.1.3
Syntax: Integer
Read-write
Shows the state of the row in the PeerRow Table:
• other(1)
• valid(2)
• delete(3)
• create(4)
Name, Identifier, and Syntax Access Description
wgPnPTable
fdry.1.1.3.23.4
N/A AP ADC Table.
wgPnPEntry
fdry.1.1.3.23.4.1
Syntax: WgPnPEntry
N/A An entry in the AP ADC Table.
wgPnPIfIndex
fdry.1.1.3.23.4.1.1
Syntax: Integer
Read-only The ifIndex value of the switch interface.
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VPN Passthrough Server TableThe VPN Passthrough Server Table contains the VPN policies that have been configured on the WLAN switch.
wgPnPMacAddress
fdry.1.1.3.23.4.1.2
Syntax: MacAddress
Read-only MAC address of the attached AP.
wgPnPIpAddress
fdry.1.1.3.23.4.1.3
Syntax: IpAddress
Read-write
IP address of the attached AP.
wgPnPIpMask
fdry.1.1.3.23.4.1.4
Syntax: IpAddress
Read-write
Subnet mask of the attached AP.
wgPnPIpDefaultGw
fdry.1.1.3.23.4.1.5
Syntax: IpAddress
Read-write
Default gateway of the attached AP.
wgPnPStatus
fdry.1.1.3.23.4.1.6
Syntax: Integer
Read-only The state of the access point that is defined for the interface:
• other(1)
• discovered(2) – WLAN switch discovered a new access point that has not been configured.
• configured(3) – The access point’s IP address, subnet mask, and default gateway have been defined on the interface, but the access point with the matching MAC address is not attached to the interface.
• operational(4) – The access point’s IP address, subnet mask, and default gateway have been defined on the interface and the access point with the matching MAC address is attached to the interface and is operational.
wgPnPRowStatus
fdry.1.1.3.23.4.1.7
Syntax: Integer
Read-write
Creates, deletes or modifies a row in the AP ADC Table:
• other(1)
• valid(2)
• delete(3)
• create(4)
• modify(5)
Name, Identifier, and Syntax Access Description
wgVpnPTServerTable
fdry.1.1.3.23.5
N/A The VPN Passthrough Server Table.
Name, Identifier, and Syntax Access Description
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Wireless Features
VPN Passthrough Filter TableThe VPN Passthrough Filter Table shows the VPN passthrough policies and the action the policy takes when it encounters VPN traffic that matches the policy.
wgVpnPTServerEntry
fdry.1.1.3.23.5.1
N/A An entry in the VPN Passthrough Server Table.
wgVpnPTServerPolicyId
fdry.1.1.3.23.5.1.1
Syntax: Integer
Read-only The ID of a VPN passthrough policy. The value of this object must be greater than zero.
wgVpnPTServerIpAddress
fdry.1.1.3.23.5.1.2
Syntax: IpAddress
Read-only The IP address of the VPN server that will be used to terminate VPN traffic that goes through this switch.
wgVpnPTServerRowStatus
fdry.1.1.3.23.5.1.3
Syntax: Integer
Read-write
Creates or deletes a row in the VPN Passthrough Server Table:
• other(1)
• valid(2)
• delete(3)
• create(4)
Name, Identifier, and Syntax Access Description
wgVpnPTFilterTable
fdry.1.1.3.23.6
N/A The VPN Passthrough Filter Table
wgVpnPTFilterEntry
fdry.1.1.3.23.6.1
N/A An entry in the VPN Passthrough Filter Table.
wgVpnPTFilterPolicyId
fdry.1.1.3.23.6.1.1 Syntax: Integer
Read-only The ID of the VPN passthrough policy. This is a number greater than zero.
wgVpnPTFilterProtocol
fdry.1.1.3.23.6.1.2
Syntax: Integer
Read-only Specifies which protocol will be allowed to passthough:
• other(1)
• udp(2)
• tcp(3)
wgVpnPTFilterPort
fdry.1.1.3.23.6.1.4
Syntax: Integer
Read-only Specifies which protocol interface (number) will be allowed to passthrough.
Name, Identifier, and Syntax Access Description
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VPN Passthrough Policy TableThe VPN Passthrough Policy Table shows to which interfaces a VPN policy is bound.
wgVpnPTFilterRowStatus
fdry.1.1.3.23.6.1.4
Syntax: Integer
Read-write
Creates or deletes a row of VPN Passthrough Filter Table:
• other(1)
• valid(2)
• delete(3)
• create(4)
Name, Identifier, and Syntax Access Description
wgVpnPTPolicyTable
fdry.1.1.3.23.7
N/A VPN Passthrough Policy Table
wgVpnPTPolicyEntry
fdry.1.1.3.23.7.1
N/A An entry in the VPN Passthrough Policy Table.
wgVpnPTPolicyId
fdry.1.1.3.23.7.1.1
Syntax: Integer
Read-only The ID of the VPN policy. The value of this object must be greater than zero.
wgVpnPTPolicyPortList
fdry.1.1.3.23.7.1.2
Syntax: IfIndexList
Read-only Shows a list of ports to which this VPN policy is bound.
Name, Identifier, and Syntax Access Description
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Chapter 30Traps and Objects to Enable Traps
The following sections comprise this chapter:
• “Objects to Enable or Disable Standard Traps” on page 30-1 presents the objects from the standard MIBs that enable SNMP traps.
• “Objects for Foundry Traps” on page 30-2 contains object to enable the SNMP traps that are proprietary to Foundry devices.
• “Standard Traps” on page 30-11 lists the standard SNMP traps that are supported in the MIB.
• “Foundry Traps” on page 30-18 details the SNMP traps in the Foundry MIB that are proprietary to Foundry devices.
• “Examples” on page 30-54 presents examples of how to configure SNMP traps for a Foundry device.
NOTE: By default, all traps are enabled.
Objects to Enable or Disable Standard TrapsThe following objects from RFC 1213 are the standard objects supported in the Foundry MIB. They are used to set SNMP traps.
Name, OID, and Syntax Access Description
snmpInTraps
1.3.6.1.2.1.11.19
Read only Shows the total number of SNMP trap PDUs that have been accepted and processed by the SNMP protocol.
snmpOutTraps
1.3.6.1.2.1.11.29
Read only Shows the total number of SNMP trap PDUs that have been generated by the SNMP protocol.
April 2008 © 2008 Foundry Networks, Inc. 30-1
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Objects for Foundry TrapsThis section present the objects available to enable or disable traps.
Trap InformationThe following objects provide general information on traps.
snmpEnableAuthenTraps
1.3.6.1.2.1.11.30
Read-write Indicates if the SNMP agent process is permitted to generate authentication failure traps. The value of this object overrides any configuration information. This objects provides a way to disable all authentication failure traps.
NOTE: It is strongly recommended that this object be stored in the non-volatile memory so that it remains constant between re-initializations of the network management system.
lldpRemTablesChange
1.0.8802.1.1.2.1.4.1
None An lldpRemTablesChange notification is sent when the value of lldpStatsRemTableLastChangeTime changes. It can be used by an NMS to trigger LLDP remote systems table maintenance polls.
NOTE: Transmission of lldpRemTablesChange notifications are throttled by the agent, as specified by the 'lldpNotificationInterval' object.
lldpXMedTopologyChangeDetected
1.0.8802.1.1.2.1.5.4795.0.1
None Allows a device to transfer information related to topology changes to management applications in an asynchronous manner. Specifically, this enables notification of the fact that a new remote device was connected to the local port of an LLDP-MED network connectivity device, or that a remote device was removed from the local port. The purpose of this notification is efficient, near-real-time transmission of information regarding moves and changes to the management applications. Information carried by the list of objects (varbind) contained in the notification allows the receiving management application to uniquely identify the local port where the topology change occurred, as well as the device capability of the remote endpoint device that was attached to or removed from the port.
Name, OID, and Syntax Access Description
snAgTrpRcvrCurEntry
fdry.1.1.2.1.16
Syntax: Integer
Read only Shows the total number of entries that are currently in the Trap Receiver Table. There can be up to 255 entries.
snAgGblTrapMessage
fdry.1.1.2.1.44
Syntax: Display string
Read only Shows a generic trap message.
Name, OID, and Syntax Access Description
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Traps and Objects to Enable Traps
Trap Receiver Table (IPv4)This table allows you to configure trap receivers on Foundry IPv4 devices.
NOTE: For FastIron IPv6 devices running software release FSX 04.1.00 or later, see “Trap Receiver Table (FastIron X Series IPv6 Devices)” on page 30-4.
Name, OID, and Syntax Access Description
snAgTrpRcvrTable
fdry.1.1.2.3.1
None The Trap Receiver Table
snAgTrpRcvrEntry
fdry.1.1.2.3.1.1
None A row in the Trap Receiver Table. The column “snAgTrpRcvrStatus” is used to create and delete rows in the table. Creation requires a SET PDU with objects snAgTrpRcvrIndex, snAgTrpRcvrIpAddr, snAgTrpRcvrComm and snAgTrpRcvrStatus.
snAgTrpRcvrIndex
fdry.1.1.2.3.1.1.1
Syntax: Integer
Read only Shows the index in the Trap Receiver Table.
Valid values: 1 – 10
snAgTrpRcvrIpAddr
fdry.1.1.2.3.1.1.2
Syntax: IpAddress
Read-write
Indicates the IP address of the SNMP manager that will receive the trap.
snAgTrpRcvrComm
fdry.1.1.2.3.1.1.3
Syntax: Octet string
Read-write
Indicates the community string to use to access the trap receiver. This object can have up to 32 octets.
snAgTrpRcvrStatus
fdry.1.1.2.3.1.1.4
Syntax: Integer
Read-write
Controls the management of the table rows. The values that can be written are:
• ignore(5) – Do not send traps to this entry at this time
• delete(3) – Delete the row. (See note below regarding deleting a trap receiver.)
• create(4) – Create a new row
If the row exists, then a SET with a value of create(5) returns error "badValue". Deleted rows are deleted immediately.
The following values can be returned on reads:
• other(1) – Some other case
• valid(2) – Row exists and is valid
• ignore(5) – Do not send traps to this entry at this time
snAgTrpRcvrUDPPort
fdry1.1.2.3.1.1.5
Syntax: Integer
Read-write
Indicates the UDP port number of the trap receiver.
Valid values: 0 – 65535
Default: 162
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NOTE: To delete a trap receiver, the agent needs the following varbinds in the setRequest PDU: snAgTrpRcvrIpAddr, snAgTrpRcvrComm, and snAgTrpRcvrStatus. The snAgTrpRcvrStatus object must be set to delete(3).
Trap Receiver Table (FastIron X Series IPv6 Devices)This table allows you to configure trap receivers on FastIron X Series IPv6 devices running software release FSX 04.1.00 or later.
NOTE: Releases prior to FSX 04.1.00 use the “Trap Receiver Table (IPv4)” on page 30-3.
snAgTrpRcvrSecurityModel
fdry.1.1.2.3.1.1.6
Syntax: Integer
read-write Allows configuration of security model (v1, v2c or 3).
snAgTrpRcvrSecurityLevel
fdry.1.1.2.3.1.17
Syntax: Integer
read-write Allows configuration of the security level (noauth, auth or auth+priv).
Name, OID, and Syntax Access Description
fdryTrapReceiverTable
fdry.1.1.10.1.1.1
None The Trap Receiver Table.
fdryTrapReceiverEntry
fdry.1.1.10.1.1.1.1
None An entry in the Trap Receiver Table. This table uses a running index as the index to the table.
fdryTrapReceiverIndex
fdry.1.1.10.1.1.1.1.1
Syntax: Unsigned32
None The index to the Trap Receiver Table.
fdryTrapReceiverAddrType
fdry.1.1.10.1.1.1.1.2
Syntax: InetAddressType
Read-create
The IP address type. Supported address types are:
• ipv4(1)
• ipv6(2)
Default: ipv4
fdryTrapReceiverAddr
fdry.1.1.10.1.1.1.1.3
Syntax: InetAddress
Read-create
The IP address of the SNMP manager that will receive the trap.
fdryTrapReceiverCommunityOrSecurityName
fdry.1.1.10.1.1.1.1.4
Syntax: Octet string(size(0..32))
Read-create
The community string to use to access the trap receiver. This object can have up to 32 octets. In the case of USM (SNMPv3) security model, this object is used to provide the security name.
Name, OID, and Syntax Access Description
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Traps and Objects to Enable Traps
General Chassis and Agent TrapsThe following objects enable or disable traps related to the device’s power supply, fan, and interface links.
fdryTrapReceiverUDPPort
fdry.1.1.10.1.1.1.1.5
Syntax: Integer32(0..65535)
Read-create
The UPD port number of the trap receiver.
Valid value: 0 – 65535
Default: 162
fdryTrapReceiverSecurityModel
fdry.1.1.10.1.1.1.1.6
Syntax: SecurityModel
Read-create
The version of trap format to be used.
Default: v1
fdryTrapReceiverSecurityLevel
fdry.1.1.10.1.1.1.1.7
Syntax: SecurityLevel
Read-create
Used for USM (SNMPv3) security model to specify the level of security. The security name is provided by fdryTrapReceiverCommunityOrSecurityName.
Default: noAuth
fdryTrapReceiverRowStatus
fdry.1.1.10.1.1.1.1.8
Syntax: RowStatus
Read-create
This variable is used to create, modify, or delete a row in this table. When a row in this table is in active(1) state, no objects in that row can be modified except this object.
Name, OID, and Syntax Access Description
snChasEnablePwrSupplyTrap
fdry.1.1.1.1.12
Syntax: Integer
Read-write
Indicates if the SNMP agent process has been enabled to generate power supply failure traps:
• disabled(0)
• enabled(1)
snChasEnableFanTrap
fdry.1.1.1.1.16
Syntax: Integer
Read-write
For chassis devices only.
Indicates if the SNMP agent process has been enabled to generate fan failure traps:
• disabled(0)
• enabled(1)
Default: disabled(0)
snAgGblEnableColdStartTrap
fdry.1.1.2.1.21
Syntax: Integer
Read-write
Indicates if the SNMP agent process has been enabled to generate cold start traps:
• disabled(0)
• enabled(1)
Default: enabled(1)
Name, OID, and Syntax Access Description
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snAgGblEnableLinkUpTrap
fdry.1.1.2.1.22
Syntax: Integer
Read-write
Indicates if the SNMP agent process has been enabled to generate link up traps:
• disabled(0)
• enabled(1)
Default: enabled(1)
snAgGblEnableLinkDownTrap
fdry.1.1.2.1.23
Syntax: Integer
Read-write
Indicates if the SNMP agent process has been enabled to generate link down traps:
• disabled(0)
• enabled(1)
Default: enabled(1)
snAgGblEnableModuleInsertedTrap
fdry.1.1.2.1.42
Syntax: Integer
Read-write
Indicates if the SNMP agent process has been enabled to generate traps for hardware modules that have been inserted in the chassis:
• disabled(0)
• enabled(1)
Default: enabled(1)
snAgGblEnableModuleRemovedTrap
fdry.1.1.2.1.43
Syntax: Integer
Read-write
Indicates if the SNMP agent process has been enabled to generate traps for hardware modules that have been removed from the chassis:
• disabled(0)
• enabled(1)
Default: enabled(1)
snChasEnableTempWarnTrap
fdry.1.1.1.1.21
Syntax: Integer
Read-write
Indicates if the SNMP agent process has been enabled to generate temperature warning traps:
• disabled(0)
• enabled(1)
Default: disabled(0)
snAgentEnableMgmtModRedunStateChangeTrap
fdry.1.1.2.10.1.4
Syntax: Integer
Read-write
Indicates if the SNMP agent process has been enabled to generate management module redundancy state change traps:
• disabled(0)
• enabled(1)
Default: enabled(1)
snAgTrapHoldTime
fdry.1.1.2.1.58
Syntax: Integer
Read-write
The number of seconds that traps will be held during device initialization. Traps are buffered while the device initialized; they are sent once the device is back online.
Name, OID, and Syntax Access Description
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Traps and Objects to Enable Traps
Enable VRRP Traps
Enable FSRP Traps
Enable VSRP Traps
Name, OID, and Syntax Access Description
snVrrpIfStateChangeTrap
fdry.1.2.12.1.2
Syntax: Integer
Read-write
Indicates if the SNMP agent process has been enabled to generate VRRP interface state change traps:
• disabled(0)
• enabled(1)
Default: enabled(0)
NOTE: The standard MIB “vrrpNotificationCntl” will work exactly the same as the Foundry Proprietary MIB "snVrrpIfStateChangeTrap”.
Name, OID, and Syntax Access Description
snFsrpIfStateChangeTrap
fdry.1.2.7.1.2
Syntax: Integer
Read-write
Indicates if the SNMP agent process has been enabled to generate FSRP interface state change traps:
• disabled(0)
• enabled(1)
Default: enabled(1)
Name, OID, and Syntax Access Description
snVsrpIfStateChangeTrap
fdry.1.1.3.21.1.2
Syntax: Integer
Read-write
Indicates if the SNMP agent will generate a trap when an interface state change occur:
• disabled(0) – No trap will be generated.
• enabled(1) – The TRAP_VRRP_IF_STATE_CHANGE will be generated. Since only one of the virtual router protocols (VRRP, VRRPE, or VSRP) can be enabled at any one time, they all generate the same trap.
Default is enabled(1).
April 2008 © 2008 Foundry Networks, Inc. 30-7
Foundry Management Information Base Reference
Enable OSPF Trap ObjectsThe following are support objects for the OSPF traps.
Name, OID, and Syntax Access Description
snOspfSetTrap
fdry.1.2.1.14.16.1.1
Syntax: Octet string
Read-write
Indicates if specific OSPF traps are enabled.
This object contains four octets, serving as a bit map for the trap events defined by the OSPF traps. A value of 1 in the bit field indicates that the trap is enabled. The right-most bit (least significant) represents Trap 0.
snOspfConfigErrorType
fdry.1.2.4.15.2
Syntax: Integer
Read only Indicates the potential types of configuration conflicts used by the ospfConfigError and ospfConfigVirtError traps.
• badVersion(1)
• areaMismatch(2)
• unknownNbmaNbr(3) – Router is eligible
• unknownVirtualNbr(4)
• authTypeMismatch(5)
• authFailure(6)
• netMaskMismatch(7)
• helloIntervalMismatch(8)
• deadIntervalMismatch(9)
• optionMismatch(10)}
snOspfPacketType
fdry.1.2.4.15.3
Syntax: Integer
Read only Indicates the OSPF packet type in the trap.
• hello(1)
• dbDescript(2)
• lsReq(3)
• lsUpdate(4)
• lsAck(5)}
snOspfPacketSrc
fdry.1.2.4.15.4
Syntax: IpAddress
Read only Shows the IP address of an inbound packet that cannot be identified by a neighbor instance.
snOspfTrapsGenerationMode
fdry.1.2.4.15.5
Syntax: Integer
Read-write
Indicates if this router has been enabled to generate OSPF traps.
• disabled(0) – OSPF traps cannot be generated by this router, even if the object “snOspfSetTrap” is set to generate traps.
• enabled(1) – OSPF traps can be generated by the router.
This object provides global control on the generation of traps.
30-8 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
Enable Switch Group Traps
Objects to Enable Layer 4 TrapsThe following objects enable or disable traps for Layer 4 functionalities.
Name, OID, and Syntax Access Description
snSwEnableBridgeNewRootTrap
fdry.1.1.3.1.25
Syntax: Integer
Read-write
Indicates If the SNMP agent process is enabled to generate bridge new root traps.
• disabled(0)
• enabled(1)
Default: enabled(1)
snSwEnableBridgeTopoChangeTrap
fdry.1.1.3.1.26
Syntax: Integer
Read-write
Indicates if the SNMP agent process has been enabled to generate bridge topology change traps:
• disabled(0)
• enabled(1)
Default: enabled(1)
snSwEnableLockedAddrViolationTrap
fdry.1.1.3.1.27
Syntax: Integer
Read-write
Indicates if the SNMP agent process has been enabled to generate locked address violation traps:
• disabled(0)
• enabled(1)
Default: enabled(1)
Name, OID, and Syntax Access Description
snL4EnableMaxSessionLimitReachedTrap
fdry.1.1.4.1.30
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps if the maximum number of connections has been reached:
• disabled(0)
• enabled(1)
snL4EnableTcpSynLimitReachedTrap
fdry.1.1.4.1.31
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps if the maximum number of TCP SYN has been reached:
• disabled(0)
• enabled(1)
snL4EnableRealServerUpTrap
fdry.1.1.4.1.32
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when the real server is up:
• disabled(0)
• enabled(1)
snL4EnableRealServerDownTrap
fdry.1.1.4.1.33
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when the real server is down:
• disabled(0)
• enabled(1)
April 2008 © 2008 Foundry Networks, Inc. 30-9
Foundry Management Information Base Reference
snL4EnableRealServerPortUpTrap
fdry.1.1.4.1.34
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when the real server TCP port is up:
• disabled(0)
• enabled(1)
snL4EnableRealServerPortDownTrap
fdry.1.1.4.1.35
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when the real server TCP port is down:
• disabled(0)
• enabled(1)
snL4EnableRealServerMaxConnLimitReachedTrap
fdry.1.1.4.1.36
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when the real server reaches its maximum number of connections:
• disabled(0)
• enabled(1)
snL4EnableBecomeStandbyTrap
fdry.1.1.4.1.37
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when the Server Load Balancing switch changes its state from active to standby:
• disabled(0)
• enabled(1)
snL4EnableBecomeActiveTrap
fdry.1.1.4.1.38
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when the Server Load Balancing switch changes its state from standby to active:
• disabled(0)
• enabled(1)
snL4EnableGslbHealthCheckIpUpTrap
fdry.1.1.4.1.43
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when an application port in a domain on the site IP address passes its Layer 4 TCP or UDP health check, resulting in a status change to UP:
• disabled(0)
• enabled(1)
snL4EnableGslbHealthCheckIpDownTrap
fdry.1.1.4.1.44
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps whenever the GSLB determines that the IP address belonging to a domain name for which the ServerIron is providing GSLB is DOWN:
• disabled(0)
• enabled(1)
snL4EnableGslbHealthCheckIpPortUpTrap
fdry.1.1.4.1.45
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when an application port in a domain on the site IP address passes its Layer 4 TCP or UDP health check, resulting in a status change to UP:
• disabled(0)
• enabled(1)
Name, OID, and Syntax Access Description
30-10 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
Standard TrapsThis section present the standard traps supported on Foundry devices.
System Status Traps Foundry supports the following traps from RFC 1215:
snL4EnableGslbHealthCheckIpPortDownTrap
fdry.1.1.4.1.46
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when an application port in a domain on the site IP address fails its Layer 4 TCP or UDP health check, resulting in a status change to DOWN:
• disabled(0)
• enabled(1)
snL4EnableGslbRemoteGslbSiDownTrap
fdry.1.1.4.1.47
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when the connection from this site to the remote GSLB ServerIron is DOWN:
• disabled(0)
• enabled(1)
snL4EnableGslbRemoteGslbSiUpTrap
fdry.1.1.4.1.48
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when the connection from this site to the remote GSLB ServerIron is UP:
• disabled(0)
• enabled(1)
snL4EnableGslbRemoteSiDownTrap
fdry.1.1.4.1.49
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when the GSLB connection from this GSLB to the remote ServerIron is DOWN:
• disabled(0)
• enabled(1)
snL4EnableGslbRemoteSiUpTrap
fdry.1.1.4.1.50
Syntax: Integer
Read-write
Indicates if this device has been enabled to generate traps when the GSLB connection from this GSLB to remote the ServerIron is UP:
• disabled(0)
• enabled(1)
Trap Name and Number Varbind Description
coldStart
1.3.6.1.6.3.1.1.5.1
(None) Indicates that the sending protocol entity is reinitializing itself: the agent's configuration or the protocol entity implementation may be altered.
warmStart
1.3.6.1.6.3.1.1.5.2
(None) Indicates that the sending protocol entity is reinitializing itself; however, the agent configuration nor the protocol entity implementation is not altered.
Name, OID, and Syntax Access Description
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Traps for Spanning Tree ProtocolFoundry supports for the following traps for Spanning Tree Protocol from RFC 1493.
:
linkDown
1.3.6.1.6.3.1.1.5.3
ifIndex(1)
ifDescr(2)
A failure in one of the communication links.
Beginning with IronWare TrafficWorks Switch software release 09.0.00S, this trap is generated when a port’s state changes to DOWN. The message generated by this trap shows the port name and number. For example,
Interface <port-name> <port-num>, state down
linkUp
1.3.6.1.6.3.1.1.5.4
ifIndex(1)
ifDescr(2)
The communication link is up.
Beginning with IronWare TrafficWorks Switch software release 09.0.00S, this trap is generated when a port’s state changes to UP. The message generated by this trap shows the port name and number. For example,
Interface <port-name> <port-num>, state up
NOTE: Regarding linkUp and linkDown traps:
• Release 07.1.x. supports a maximum of 32 ports per module; therefore the ifIndex for this release ranges from 1 – 32 for Slot 1, 33 – 64 for Slot 2 and so on.
• Release 07.2.x supports a maximum of 64 ports per module; therefore, the ifIndex for the release ranges from 1 – 64 for Slot 1, 65 – 128 for Slot2 and so on.
Thus for Slot 2/Port 1, the value of the ifIndex of the port in Release 07.1.x is 33; whereas, in Release 07.2.x, it is 65.
authenticationFailure
1.3.6.1.6.3.1.1.5.5
(none) Indicates that the sending protocol entity is the addressee of a protocol message that is not properly authenticated. While implementations of the SNMP must be capable of generating this trap, they must also be capable of suppressing the emission of such traps via an implementation-specific mechanism.
NOTE: On Terathon devices, this trap is supported is software release 01.1.01.
Trap Name and Number Description
newRoot
1.3.6.1.2.1.17.0.1
NOTE: On Terathon devices, this trap is supported is software release 01.1.01.
Indicates that the sending agent has become the new root of the Spanning Tree. The trap is sent by a bridge soon after its election as the new root, for example, upon expiration of the Topology Change Timer immediately subsequent to its election.
Trap Name and Number Varbind Description
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Traps and Objects to Enable Traps
Traps for AlarmsFoundry supports the following traps for alarms from RFC 1757:
topologyChange
1.3.6.1.2.1.17.0.2
NOTE: On Terathon devices, this trap is supported is software release 01.1.01.
Is sent by a bridge when any of its configured ports transitions from the Learning state to the Forwarding state, or from the Forwarding state to the Blocking state. The trap is not sent if a newRoot trap is sent for the same transition.
Name, OID, and Syntax Description
alarmRisingThreshold
1.3.6.1.2.1.16.3.1.1.7
Syntax: Integer32
A threshold for the sampled statistic. This object generates an event when the current sampled value is greater than or equal to this threshold, and the value at the last sampling interval was less than this threshold. This object also generates an event if the first sample after this entry becomes valid is greater than or equal to this threshold and the associated alarmStartupAlarm is equal to risingAlarm(1) or risingOrFallingAlarm(3).
After a rising event is generated, another such event will not be generated until the sampled value falls below this threshold and reaches the alarmFallingThreshold.
alarmFallingThreshold
1.3.6.1.2.1.16.3.1.1.8
Syntax: Integer32
A threshold for the sampled statistic. This object generates an event when the current sampled value is less than or equal to this threshold, and the value at the last sampling interval was greater than this threshold. This object also generates an event if the first sample after this entry becomes valid is less than or equal to this threshold and the associated alarmStartupAlarm is equal to fallingAlarm(2) or risingOrFallingAlarm(3).
After a falling event is generated, another such event will not be generated until the sampled value rises above this threshold and reaches the alarmRisingThreshold.
Trap Name and Number Description
April 2008 © 2008 Foundry Networks, Inc. 30-13
Foundry Management Information Base Reference
Traps for Optics The following table presents general traps for the NetIron XMR and the NetIron MLX Series devices running software release 03.4.00 and later. Some of these traps also apply to the FESX/FSX/FWSX devices running software release 04.0.01 and later (where noted).
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapOpticalMonitoringWarning
fdry.0.1003
Note: This trap is supported on FastIron devices running software release FSX 04.0.01 and later, and on NetIron XMR and NetIron MLX Series devices running software release 03.3.00 and later.
snAgGblTrapMessage
Warning A warning occurred during optical monitoring.
Sample Trap Message:
Latched high Temperature alarm, port <slot>/<port>
snTrapOpticalMonitoringAlarm
fdry.0.1004
Note: This trap is supported on FastIron devices running software release FSX 04.0.01 and later, and on the NetIron XMR and NetIron MLX Series devices running software release 03.3.00 and later.
snAgGblTrapMessage
Alerts An alarm occurred during optical monitoring due to a low temperature in the device.
Sample Trap Message:
Latched low Temperature alarm, port <slot>/<port>
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Traps and Objects to Enable Traps
snTrapOpticalMonitoringError
fdry.0.1005
Note: This trap is supported on FastIron devices running software release FSX 04.0.01 and later, and on the NetIron XMR and NetIron MLX Series devices running software release 03.3.00 and later.
snAgGblTrapMessage
Informational An error occurred during optical monitoring.
Samples of Trap Message:
OPTICAL MONITORING: sys_create_timer failed, slot <n>, port mask <portmask>
OPTICAL MONITORING: sys_set_timer failed, slot <n>, port mask <portmask>
OPTICAL MONITORING: THRESHOLDS READ FAILED, port <slot>/<port>
OPTICAL MONITORING: AUX AD TYPE READ FAILED, port <slot>/<port>"
OPTICAL MONITORING: INT UNMASK ALL WRITE FAILED, port <slot>/<port>
OPTICAL MONITORING: INT MASK WRITE FAILED, port <slot>/<port>
OPTICAL MONITORING:: OPTICAL INT MASK WRITE FAILED, port <slot>/<port>
OPTICAL MONITORING: port <slot>/<port>: sys_create_timer failed
OPTICAL MONITORING: port <slot>/<port>: sys_create_timer2 failed
OPTICAL MONITORING: port <slot>/<port>: sys_set_timer failed
OPTICAL MONITORING: port <slot>/<port>, failed to get latched flags(<n>)
OPTICAL MONITORING: port <slot>/<port>: sys_set_timer1 failed
Trap Name and Number
Varbinds Severity Description and Trap Message
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Foundry Management Information Base Reference
snTrapXfpSfpIncompatibleOptics
fdry.0.1009
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Alerts The optics are incompatible with the port configuration.
Sample Trap Message:
snTrapTMLoggingStart
fdry.0.1015
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Informational TM logging started, triggerred by an event.
Sample Trap Message:
snTrapTMLoggingStop
fdry.0.1016
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Informational TM logging stopped because the storage full.
Sample Trap Message:
snTrapTMLoggingRestart
fdry.0.1017
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Informational TM logging restarted after the log was cleared
Sample Trap Message:
Trap Name and Number
Varbinds Severity Description and Trap Message
30-16 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
PW TrapsThe following are the PW traps. These traps are supported in the following devices:
• Multi-Service IronWare software release 03.0.00 and later for NetIron IMR 640
• Multi-Service IronWare software release 03.0.00 and later for NetIron XMR Series
snTrapSFMLinkDown
fdry.0.1100
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Warning A link from LP Traffic Manager to SFM Fabric Element is down.
Sample Trap Message:
Fabric Monitoring Link Down : SFM <num>/FE <num>/Link <num>, LP <num>/TM <num>"
snTrapSFMLinkUp
fdry.0.1101
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Informational A link from LP Traffic Manager to SFM Fabric Element is up.
Sample Trap Message:
Fabric Monitoring Link Up : SFM <num>/FE <num>/Link <num>, LP <num>/TM <num>"
snTrapXfpSfpNotFoundryOptics
fdry.0.1018
snAgGblTrapMessage
Alerts The SNMP trap that is generated if optics vendor is not Foundry Networks.
snTrapOpticalMonitoringFoundryOpticsNotCapable
fdry.0.157
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.5.00 and later.
snAgGblTrapMessage
Alerts The SNMP trap that is generated if optical monitoring is enabled but the Foundry optic is not capable.
Sample Trap Message:
Foundry Trap: Optical Monitoring Optics Not Capable
Trap Name and Number
Varbinds Severity Description and Trap Message
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• Multi-Service IronWare software release 03.1.00 and later for NetIron MLX series
MPLS L3VPN TrapsThe following table lists the MPLS L3 VPN traps:
Foundry TrapsThis section presents the Foundry traps supported on Foundry devices.
Trap Name Supported Varbind Trap Message
pwUp
fdry.3.1.2.0.2
Yes pwOperStatus, --start of range pwOperStatus --end of range
This notification is generated when the pwOperStatus object for one or more contiguous entries in pwTable are about to enter the up(1) state from some other state.
pwDown
fdry.3.1.2.0.1
Yes pwOperStatus, --start of range pwOperStatus --end of range
This notification is generated when the pwOperStatus object for one or more contiguous entries in pwTable are about to enter the down(2) state from some other state. The included values of pwOperStatus MUST all be set equal to this down(2) state.
pwDeleted
fdry.3.1.2.0.3
Yes pwType, pwID, pwPeerAddrType, pwPeerAddr
This notification is generated when the PW has been deleted, i.e. when the pwRowStatus has been set to destroy(6), the PW has been deleted by a non-MIB application or due to auto discovery process.
Trap Name Supported Varbind Description
mplsL3VpnVrfUp
1.3.6.1.2.1.10.166.11.0.1
Yes mplsL3VpnIfConfRowStatus, mplsL3VpnVrfOperStatus
Generated when ifOperStatus of any interface within the VRF changes to up state
mplsL3VpnVrfDown
1.3.6.1.2.1.10.166.11.0.2
Yes mplsL3VpnIfConfRowStatus, mplsL3VpnVrfOperStatus
Generated when ifOperStatus of any interface within the VRF changes to down state.
mplsL3VpnVrfRouteMidThreshExceeded
1.3.6.1.2.1.10.166.11.0.3
No
mplsL3VpnVrfNumVrfRouteMaxThreshExceeded
1.3.6.1.2.1.10.166.11.0.4
No
mplsL3VpnNumVrfSecIllglLblThrshExcd
1.3.6.1.2.1.10.166.11.0.5
No
mplsL3VpnNumVrfRouteMaxThreshCleared
1.3.6.1.2.1.10.166.11.0.6
No
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Traps and Objects to Enable Traps
NOTE: The Traps in the Foundry MIBs include the following lines in their description:
--#TYPE "Foundry Trap: Power Supply Failure"--#SUMMARY "Power supply fails, error status %d."--#ARGUMENTS { 0 }--#SEVERITY MINOR--#STATE OPERATIONAL
These lines are used by the HP OpenView network management system.
General TrapsThe table below lists the general traps generated by Foundry devices. Refer to the previous sections in this chapter to determine if traps for a feature need to be enabled (for example, OSPF traps need to be enabled.)
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapChasPwrSupply
NOTE: This has been replaced by “snTrapChasPwrSupplyFailed” on page 30-20 and “snTrapChasFanFailed” on page 30-20
NOTE: This object has been deprecated in NetIron XMR/MLX software release 03.6.00 and the BigIron RX 02.5.00 software release and is no longer supported. It has been replaced by the “Power Supply Table” on page 5-25.
snChasPwrSupplyStatus
Minor The power supply failed or is not operating normally.
The value is a packed bit string; the power supply statuses are encoded into four bits (a nibble). The following shows the meaning of each bit:
(bit 0 is the least significant bit).
Bit position Meaning
4 to 31 Reserved
3 Power Supply 2 DC (0=bad, 1=good).
2 Power Supply 1 DC (0=bad, 1=good).
1 Power Supply 2 present status (0=present, 1=not-present).
0 Power Supply 1 present status (0=present, 1=not-present).
Sample Trap Message:
Power supply fails, error status <snChasPwrSupplyStatus>
snTrapLockedAddressViolation
snSwViolatorPortNumber
snSwViolatorMacAddress
Minor The number of source MAC addresses received from a port is greater than the maximum number of addresses configured for that port.
Sample Trap Message:
Lock address violation on Port <snSwViolatorPortNumber> with MAC Address <snSwViolatorMacAddress>
April 2008 © 2008 Foundry Networks, Inc. 30-19
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snTrapLockedAddressViolation2
snAgGblTrapMessage
Minor The number of source MAC addresses received from a port is greater than the maximum number of addresses configured for that port.
Sample Trap Message:
Locked address violation at interface Ethernet <port>, address <mac>
snTrapModuleInserted
fdry.0.28
NOTE: On Terathon devices, this trap is supported is software release 01.1.01.
snAgentBrdIndex Informational A module was inserted into the chassis while the system is running.
This trap is supported on the
Sample Trap Message:
Module <snAgentBrdIndex> was inserted to the chassis during system running
snTrapModuleRemoved
fdry.0.29
NOTE: On Terathon devices, this trap is supported is software release 01.1.01.
snAgentBrdIndex Informational A module was removed from the chassis while the system is running.
Sample Trap Message:
Module <snAgentBrdIndex> was removed from the chassis during system running
snTrapChasPwrSupplyFailed
fdry.0.30
snChasPwrSupplyIndex
snChasPwrSupplyDescription
Minor A power supply in the device failed.
Sample Trap Message:
Power supply <snChasPwrSupplyIndex> <snChasPwrSupplyDescription>)failed
snTrapChasFanFailed
fdry.0.31
snChasFanIndex
snChasFanDescription
Minor A fan in the device failed.
Sample Trap Message:
Fan <snChasFanIndex> (<snChasFanDescription>) failed
snTrapChasFanNormal
fdry.0.49
snChasFanIndex
snChasFanDescription
Minor The status of a fan has changed from fail to normal.
Fan <snChasFanIndex> (<snChasFanDescription>) ok
Trap Name and Number
Varbinds Severity Description and Trap Message
30-20 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
snTrapMgmtModuleRedunStateChange
fdry.0.35
NOTE: On Terathon devices, this trap is supported is software release 01.1.01.
snAgGblTrapMessage
Warning The management module changed its redundancy state.
Sample Trap Message:
Management module at slot <slot-num> state changed from <old-state> to <new-state>
snTrapTemperatureWarning
fdry.0.36
NOTE: On Terathon devices, this trap is supported is software release 01.1.01.
snAgGblTrapMessage
Critical The actual temperature reading is above the warning temperature threshold.
Sample Trap Message:
Temperature <actual-temp> C degrees, warning level <warning-temp> C degrees, shutdown level <shutdown-temp> C degrees
snTrapAccessListDeny
fdry.0.37
NOTE: This object is not available on the NetIron IMR 640.
snAgGblTrapMessage
Warning A packet was denied by an access list.
Sample Trap Message (for RIP):
rip filter list <id> in rip denied <IP>, <n> event(s)
snTrapMacFilterDeny
fdry.0.36
NOTE: This object is not available on the NetIron IMR 640.
snAgGblTrapMessage
Warning A packet was denied by a MAC address filter.
Sample Trap Message
mac filter group denied packets on port <n> src macaddr <mac>, <n> packets
snTrapDuplicateIp
fdry.0.56
Major A duplicate IP address was detected.
Sample Trap Message:
Duplicate IP address detect.
snTrapRunningConfigChanged
fdry.0.73
snAgGblTrapMessage
Informational The running configuration has been changed.
NOTE: For Terathon devices, this trap is generated if the running configuration was changed through TFTP or Secure Copy.
Sample Trap Message:
Running-config was changed by user1 from telnet client 192.168.2.129.
Trap Name and Number
Varbinds Severity Description and Trap Message
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snTrapStartupConfigChanged
fdry.0.74
snAgGblTrapMessage
Informational The start-up configuration has been changed.
Sample Trap Message:
Startup-config was changed from console.
snTrapUserLogin
fdry.0.75
NOTE: Available in the following releases:
• Enterprise Software Release 07.8.00 and later
• FastIron SuperX Release 02.0.01 and later.
snAgGblTrapMessage
Informational A user logged in to a device.
Sample Trap Message:
user1 login to USER EXEC mode.
snTrapUserLogout
fdry.0.76
NOTE: Available in the following releases:
• Enterprise Software Release 07.8.00 and later
• FastIron SuperX Release 02.0.01 and later.
snAgGblTrapMessage
Informational A user logged out of a device.
Sample Trap Message:
user1 logout from USER EXEC mode.
snTrapClientLoginReject
fdry.0.110
NOTE: Available in the following releases:
• Enterprise Software Release 07.8.00 and later
• FastIron SuperX Release 02.0.01 and later.
• FastIron Edge Switch Release 03.3.01a and later
snAgGblTrapMessage
Informational A login by a Telnet or SSH client failed.
Format:
telnet|SSH access [by <username>] from src IP <ip>, src MAC <mac> rejected, <n> attempt(s)
Trap Name and Number
Varbinds Severity Description and Trap Message
30-22 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
snTrapLocalUserConfigChange
fdry.0.111
NOTE: Available in the following releases:
• Enterprise Software Release 07.8.00 and later
• FastIron SuperX Release 02.0.01 and later.
• FastIron Edge Switch Release 03.3.01a and later
snAgGblTrapMessage
Informational The configuration of a local user account has been changed.
Format:
user <name> added|deleted|modified from console|telnet|ssh|web|snmp
snTrapVlanConfigChange
fdry.0.112
NOTE: Available in the following releases:
• Enterprise Software Release 07.8.00 and later
• FastIron SuperX Release 02.0.01 and later.
• FastIron Edge Switch Release 03.3.01a and later
snAgGblTrapMessage
Informational A VLAN configuration has been changed.
Format:
vlan <vlan-id> added|deleted|modified from console|telnet|ssh|web|snmp session
snTrapAclConfigChange
fdry.0.113
NOTE: Available in the following releases:
• Enterprise Software Release 07.8.00 and later
• FastIron SuperX Release 02.0.01 and later.
• FastIron Edge Switch Release 03.3.01a and later
• FastIron GS Release 03.2.00 and later
snAgGblTrapMessage
Informational An ACL configuration has been changed.
Format:
ACL <acl-id> added|deleted|modified from console|telnet|ssh|web|snmp session
Trap Name and Number
Varbinds Severity Description and Trap Message
April 2008 © 2008 Foundry Networks, Inc. 30-23
Foundry Management Information Base Reference
snTrapMacFilterConfigChange
fdry.0.114
NOTE: Available in the following releases:
• Enterprise Software Release 07.8.00 and later
• FastIron SuperX Release 02.0.01 and later.
• FastIron Edge Switch Release 03.3.01a and later
• FastIron GS Release 03.2.00 and later
This object is not available on the NetIron IMR 640.
snAgGblTrapMessage
Informational A MAC filter configuration has been changed.
Format:
MAC Filter <added|deleted> from console|telnet|ssh|web|snmp session (filter id=<id>, src mac=<mac>|any, dst mac=<mac>|any)
snTrapSNMPConfigChange
fdry.0.115
NOTE: Available in the following releases:
• Enterprise Software Release 07.8.00 and later
• FastIron SuperX Release 02.0.01 and later.
• FastIron Edge Switch Release 03.3.01a and later
snAgGblTrapMessage
Informational SNMP configuration has been changed.
Format:
[read-only community|read-writecommunity|contact|location|user|group|view|engineId|trap host] "<value>"deleted|added|modified from console|telnet|ssh|web|snmp session
NOTE: A contact, location, user, group, view, trap host name may be displayed for <value>.
Trap Name and Number
Varbinds Severity Description and Trap Message
30-24 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
snTrapSyslogConfigChange
fdry.0.116
NOTE: Available in the following releases:
• Enterprise Software Release 07.8.00 and later
• FastIron SuperX Release 02.0.01 and later.
• FastIron Edge Switch Release 03.3.01a and later
snAgGblTrapMessage
Informational Syslog configuration has been changed.
Format:
Syslog server <ip-address> deleted|added|modified from console|telnet|ssh|web|snmp
or
Syslog operation enabled|disabled from console|telnet|ssh|web|snmp
snTrapPasswordConfigChange
fdry.0.117
NOTE: Available in the following releases:
• Enterprise Software Release 07.8.00 and later
• FastIron SuperX Release 02.0.01 and later.
• FastIron Edge Switch Release 03.3.01a and later
snAgGblTrapMessage
Informational The enable or line password has been changed
Format:
Enable <super|port-config|read-only> password deleted|added|modified from console|telnet|ssh|web|snmp
or
Line password deleted|added|modified from console|telnet|ssh|web|snmp
snTrapServerStatusChange
fdry.0.118
NOTE: Available in the following releases:
• Enterprise Software Release 07.8.00 and later
• FastIron SuperX Release 02.0.01 and later.
• FastIron Edge Switch Release 03.3.01a and later
snAgGblTrapMessage
Informational SNMP trap server has been enabled or disabled.
Format:
SSH|Telnet server enabled|disabled from console|telnet|ssh|web|snmp session [by <user> <username>]
Trap Name and Number
Varbinds Severity Description and Trap Message
April 2008 © 2008 Foundry Networks, Inc. 30-25
Foundry Management Information Base Reference
General Traps for the NetIron XMR and NetIron MLXThe following table presents the general traps for the NetIron XMR and NetIron MLX Series devices.
snTrapPortPriorityChange
fdry.0.122
NOTE: Available in the following releases:
• FastIron SuperX Release 02.0.01 and later.
• FastIron Edge Switch Release 03.3.01a and later
• Service Provider Release 09.2.00
snAgGblTrapMessage
Informational This trap is generated when a port’s priority is changed.
Format:
Port <port-number> priority changed to <new-priority>
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapChasFanOK
fdry.0.1000
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.3.00 and later.
snChasFanIndex, snChasFanDescription
Minor One of the following occurred on the device:
• A fan’s operational status changed from failure to normal
• Fan speed changed due to a decrease in the operationg temperature
Sample Trap Message:
Right fan tray (fan1) OK
Trap Name and Number
Varbinds Severity Description and Trap Message
30-26 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
snTrapTemperatureOK
fdry.0.1001
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.3.00 and later.
snAgGblTrapMessage
Critical The actual temperature reading on the device is below the warning temperature threshold.
Samples of Trap Messages:
Switch Fabric 2 temperature 30.2 C degrees is normal
Switch Fabric 2 temperature 30.2 C degrees is normal
Linecard Module %d PCB temperature 30.2 C degrees is normal
Linecard Module %d XPP temperature 30.2 C degrees is normal
Active mgmt CPU temperature 30.2 C degrees is normal
Standby mgmt CPU temperature 30.2 C degrees is normal
snTrapCAMOverflow
fdry.0.1002
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.3.00 and later.
snAgGblTrapMessage
Alerts One of the IP CAM level is full.
Sample Trap Message:
NO MORE FREE CAM SPACE for IP level <level>.
snTrapChassisFanSpeedLow
fdry.0.1200
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Informational The speed of all chassis fans changed to low.
Sample Trap Message:
System: Set fan speed to LOW (50%%)
Trap Name and Number
Varbinds Severity Description and Trap Message
April 2008 © 2008 Foundry Networks, Inc. 30-27
Foundry Management Information Base Reference
snTrapChassisFanSpeedMedium
fdry.0.1201
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Informational The speed of all chassis fans changed to medium.
Sample Trap Message:
System: Set fan speed to MED (75%%)
snTrapChassisFanSpeedMedHigh
fdry.0.1202
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Informational The speed of all chassis fans changed to medium high.
Sample Trap Message:
System: Set fan speed to MED-HI (90%%)
snTrapChassisFanSpeedHigh
fdry.0.1203
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Informational The speed of all chassis fans changed to high.
Sample Trap Message:
System: Set fan speed to HI (100%%)
Trap Name and Number
Varbinds Severity Description and Trap Message
30-28 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
Traps for OpticsThe following table presents the general traps for the NetIron XMR and NetIron MLX Series devices, running software release 03.4.00 and later.
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapOpticalMonitoringWarning
fdry.0.1003
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.3.00 and later.
snAgGblTrapMessage
Warning A warning occurred during optical monitoring.
Sample Trap Message:
Latched high Temperature alarm, port <slot>/<port>
snTrapOpticalMonitoringAlarm
fdry.0.1004
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.3.00 and later.
snAgGblTrapMessage
Alerts An alarm occurred during optical monitoring due to a low temperature in the device.
Sample Trap Message:
Latched low Temperature alarm, port <slot>/<port>
April 2008 © 2008 Foundry Networks, Inc. 30-29
Foundry Management Information Base Reference
snTrapOpticalMonitoringError
fdry.0.1005
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.3.00 and later.
snAgGblTrapMessage
Informational An error occurred during optical monitoring.
Samples of Trap Message:
OPTICAL MONITORING: sys_create_timer failed, slot <n>, port mask <portmask>
OPTICAL MONITORING: sys_set_timer failed, slot <n>, port mask <portmask>
OPTICAL MONITORING: THRESHOLDS READ FAILED, port <slot>/<port>
OPTICAL MONITORING: AUX AD TYPE READ FAILED, port <slot>/<port>"
OPTICAL MONITORING: INT UNMASK ALL WRITE FAILED, port <slot>/<port>
OPTICAL MONITORING: INT MASK WRITE FAILED, port <slot>/<port>
OPTICAL MONITORING:: XFP INT MASK WRITE FAILED, port <slot>/<port>
OPTICAL MONITORING: port <slot>/<port>: sys_create_timer failed
OPTICAL MONITORING: port <slot>/<port>: sys_create_timer2 failed
OPTICAL MONITORING: port <slot>/<port>: sys_set_timer failed
OPTICAL MONITORING: port <slot>/<port>, failed to get latched flags(<n>)
OPTICAL MONITORING: port <slot>/<port>: sys_set_timer1 failed
Trap Name and Number
Varbinds Severity Description and Trap Message
30-30 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
snTrapXfpSfpIncompatibleOptics
fdry.0.1009
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Alerts The optics are incompatible with the port configuration.
Sample Trap Message:
snTrapTMLoggingStart
fdry.0.1015
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Informational TM logging started, triggerred by an event.
Sample Trap Message:
snTrapTMLoggingStop
fdry.0.1016
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Informational TM logging stopped because the storage full.
Sample Trap Message:
snTrapTMLoggingRestart
fdry.0.1017
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Informational TM logging restarted after the log was cleared
Sample Trap Message:
Trap Name and Number
Varbinds Severity Description and Trap Message
April 2008 © 2008 Foundry Networks, Inc. 30-31
Foundry Management Information Base Reference
Packet Over SONET TrapsThe following traps are supported on the NetIron MLX and NetIron XMR Series devices running software release 03.4.00 and later.
snTrapSFMLinkDown
fdry.0.1100
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Warning A link from LP Traffic Manager to SFM Fabric Element is down.
Sample Trap Message:
Fabric Monitoring Link Down : SFM <num>/FE <num>/Link <num>, LP <num>/TM <num>
snTrapSFMLinkUp
fdry.0.1101
Note: This trap is supported on the NetIron XMR and NetIron MLX Series devices running software release 03.4.00 and later.
snAgGblTrapMessage
Informational A link from LP Traffic Manager to SFM Fabric Element is up.
Sample Trap Message:
Fabric Monitoring Link Up : SFM <num>/FE <num>/Link <num>, LP <num>/TM <num>"
Trap Name and Number Varbinds Severity Description and Trap Message
snTrapPosMonitoringWarning
fdry.0.1006
snAgGblTrapMessage
Informational A warning occurred during POS alarm monitoring.
Sample Trap Message:
snTrapPosMonitoringAlarm
fdry.0.1007
snAgGblTrapMessage
Alert An alarm up or alarm down incident occurred during POS alarm monitoring.
Sample Trap Message:
snTrapPosMonitoringError
fdry.0.1008
snAgGblTrapMessage
Informational An error occurred during POS alarm monitoring.
Sample Trap Message:
Trap Name and Number
Varbinds Severity Description and Trap Message
30-32 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
MAC-Based VLAN TrapsThese traps are supported on the FastIron GS and FastIron LS devices running software release FGS 03.0.00.
VRRP TrapOnly devices that support VRRP can use the following trap:
FSRP TrapOnly devices that support FSRP can use the FSRP trap object.
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapMacBasedVlanEnabled
fdry.0.147
snAgGblTrapMessage
Minor MAC-Based VLAN is enabled.
Sample Trap Message:
SNTrapMacBasedVlanEnabled: Mac Based Vlan Enabled on port <port id>.
snTrapMacBasedVlanDisabled
fdry.0.148
snAgGblTrapMessage
Minor MAC-Based VLAN is disabled.
Sample Trap Message:
SNTrapMacBasedVlanDisabled: Mac Based Vlan Disabled on port <port id>.
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapVrrpIfStateChange
fdry.0.34
snAgGblTrapMessage
Warning A VRRP routing device changed state from master to backup or vice-versa.
Sample Trap Message:
VRRP intf state changed, intf <port>, vrid <id>, state <new-state>.
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapFsrpIfStateChange
fdry.0.33
snAgGblTrapMessage
Informational An FSRP routing device changed state from active to standby or vice-versa.
Sample Trap Message:
SRP_FSRP intf state changed, intf <port>, addr <ip>, state <new-state>.
April 2008 © 2008 Foundry Networks, Inc. 30-33
Foundry Management Information Base Reference
VSRP Traps
OSPF Traps
NOTE: Beginning with software release 07.6.03, Foundry devices support RFC 1850 instead of the objects in this section. Also, BigIron MG8 and NetIron 40G support RFC 1850.
NOTE: You must configure the log adjacency command under the "router ospf" mode to see traps for the following objects: ospfIfStateChange trapospfNbrStateChange trapospfVirtIfStateChange trapospfVirtNbrStateChange trap
Trap Name and Number Varbinds Severity Description and Trap Message
snTrapVsrpStateChange
fdry.0.81
snAgGblTrapMessage
Informational An VSRP routing device changed its state
snTrapVsrpCamError
fdry.0.34
snAgGblTrapMessage
Informational A VSRP CAM error has occurred.
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapOspfIfStateChange
1.3.6.1.2.1.14.16.2.16
snOspfRouterId (The originator of the trap)
snOspfIfStatusIpAddress
snOspfIfStatusState (The new state)
Informational There has been a change in the state of a non-virtual OSPF interface. This trap should be generated when the interface state regresses (e.g., goes from Dr to Down) or progresses to a terminal state (i.e., Point-to-Point, DR Other, Dr, or Backup).
NOTE: You must configure the log adjacency command under the "router ospf" mode to see traps.
Sample Trap Message:
OSPF router id <snOspfRouterId>, interface <snOspfIfStatusIpAddress> state changed to <snOspfIfStatusState>.
30-34 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
snTrapOspfVirtIfStateChange
1.3.6.1.2.1.14.16.2.1
snOspfRouterId (The originator of the trap)
snOspfVirtIfStatusAreaID
snOspfVirtIfStatusNeighbor
snOspfVirtIfStatusState (The new state)
Informational There has been a change in the state of an OSPF virtual interface. This trap should be generated when the interface state regresses (e.g., goes from Point-to-Point to Down) or progresses to a terminal state (i.e., Point-to-Point).
NOTE: You must configure the log adjacency command under the "router ospf" mode to see traps.
Sample Trap Message:
OSPF router id <snOspfRouterId>, virtual interface area id <snOspfVirtIfStatusAreaID> neighbor <snOspfVirtIfStatusNeighbor> state changed to <snOspfVirtIfStatusState>.
snOspfNbrStateChange
1.3.6.1.2.1.14.16.2.2
snOspfRouterId (The originator of the trap)
snOspfNbrIpAddr
snOspfNbrRtrId
snOspfNbrState (The new state)
Informational There has been a change in the state of a non-virtual OSPF neighbor. This trap should be generated when the neighbor state regresses (e.g., goes from Attempt or Full to 1-Way or Down) or progresses to a terminal state (e.g., 2-Way or Full). When an neighbor transitions from or to Full on non-broadcast multi-access and broadcast networks, the trap should be generated by the designated router. A designated router transitioning to Down will be noted by ospfIfStateChange.
NOTE: You must configure the log adjacency command under the "router ospf" mode to see traps.
Sample Trap Message:
OSPF router id <snOspfRouterId> neighbor area <snOspfNbrIpAddr>,neighbor router id <snOspfNbrRtrId> state changed to <snOspfNbrState>.
Trap Name and Number
Varbinds Severity Description and Trap Message
April 2008 © 2008 Foundry Networks, Inc. 30-35
Foundry Management Information Base Reference
snOspfVirtNbrStateChange
1.3.6.1.2.1.14.16.2.3
snOspfRouterId (The originator of the trap)
snOspfVirtNbrArea
snOspfVirtNbrRtrId
snOspfVirtNbrState (The new state)
Informational There has been a change in the state of an OSPF virtual neighbor. This trap should be generated when the neighbor state regresses (e.g., goes from Attempt or Full to 1-Way or Down) or progresses to a terminal state (e.g., Full).
NOTE: You must configure the log adjacency command under the "router ospf" mode to see traps.
Sample Trap Message:
OSPF router id <snOspfRouterId> virtual neighbor area <snOspfVirtNbrArea>, virtual neighbor router id <snOspfVirtNbrRtrId> state changed to <snOspfVirtNbrState>.
snOspfIfConfigError
1.3.6.1.2.1.14.16.2.4
snOspfRouterId (The originator of the trap)
snOspfIfStatusIpAddress
snOspfPacketSrc (The source IP address)
snOspfConfigErrorType (Type of error)
snOspfPacketType
Major A packet has been received on a non-virtual interface from a router whose configuration parameters conflict with this router’s confi guration parameters.
NOTE: The event optionMismatch should cause a trap only if it prevents an adjacency from forming.
Trap Message:
Configuration error type <snOspfConfigErrorType> with packet type <snOspfPacketType> has been received on interface <snOspfIfStatusIpAddress>, router id <snOspfRouterId> from <snOspfPacketSrc>.
snOspfVirtIfConfigError
1.3.6.1.2.1.14.16.2.5
snOspfRouterId (The originator of the trap)
snOspfVirtIfStatusAreaID
snOspfVirtIfStatusNeighbor
snOspfConfigErrorType (Type of error)
snOspfPacketType
Major A packet has been received on a virtual interface from a router whose configuration parameters conflict with this router’s configuration parameters.
NOTE: The event optionMismatch should cause a trap only if it prevents an adjacency from forming.
Trap Message:
Configuration error type <snOspfConfigErrorType> with packet type <snOspfPacketType> has been received on virtual interface area id <snOspfVirtIfStatusAreaID>, router id <snOspfRouterId> from neighbor <snOspfVirtIfStatusNeighbor>.
Trap Name and Number
Varbinds Severity Description and Trap Message
30-36 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
snOspfIfAuthFailure
1.3.6.1.2.1.14.16.2.6
snOspfRouterId (The originator of the trap)
snOspfIfStatusIpAddress
snOspfPacketSrc (The source IP address)
snOspfConfigErrorType (authTypeMismatch or authFailure
snOspfPacketType
Minor A packet has been received on a non-virtual interface from a router whose authentication key or authentication type conflicts with this router’s authentication key or authentication type.
Trap Message:
OSPF authentication failed. Router ID <snOspfRouterId>, Interface <snOspfIfStatusIpAddress>, packet src <snOspfPacketSrc>, error type <snOspfConfigErrorType> and packet type <snOspfPacketType>.
snOspfVirtIfAuthFailure
1.3.6.1.2.1.14.16.2.7
snOspfRouterId (The originator of the trap)
snOspfVirtIfStatusAreaID
snOspfVirtIfStatusNeighbor
snOspfConfigErrorType (authTypeMismatch or authFailure)
snOspfPacketType
Minor A packet has been received on a virtual interface from a router whose authentication key or authentication type conflicts with this router’s authentication key or authentication type.
Trap Message:
OSPF authentication failed. Router ID <snOspfRouterId>, virtual interface <snOspfVirtIfStatusAreaID>, Neigbor <snOspfVirtIfStatusNeighbor>, Error type <snOspfConfigErrorType> and packet type <snOspfPacketType>.
snOspfIfRxBadPacket
1.3.6.1.2.1.14.16.2.8
snOspfRouterId (The originator of the trap)
snOspfIfStatusIpAddress
snOspfPacketSrc (The source IP address)
snOspfPacketType
Warning An OSPF packet has been received on a non-virtual interface that cannot be parsed.
Trap Message:
OSPF Router Id <snOspfRouterId>, interface <snOspfIfStatusIpAddress> receive bad packet (type <snOspfPacketType>) from <snOspfPacketSrc>.
Trap Name and Number
Varbinds Severity Description and Trap Message
April 2008 © 2008 Foundry Networks, Inc. 30-37
Foundry Management Information Base Reference
snOspfVirtIfRxBadPacket
1.3.6.1.2.1.14.16.2.9
snOspfRouterId (The originator of the trap)
snOspfVirtIfStatusAreaID
snOspfVirtIfStatusNeighbor
snOspfPacketType
Warning An OSPF packet has been received on a virtual interface that cannot be parsed.
Trap Message:
OSPF router id <snOspfRouterId>, virtual interface <snOspfVirtIfStatusAreaID> received bad packet (type <snOspfPacketType>) from neighbor <snOspfVirtIfStatusNeighbor>.
snOspfTxRetransmit
1.3.6.1.2.1.14.16.2.10
snOspfRouterId (The originator of the trap)
snOspfIfStatusIpAddress
snOspfNbrRtrId (Destination)
snOspfPacketType
snOspfLsdbType
snOspfLsdbLsId
snOspfLsdbRouterId
Warning An OSPF packet has been retransmitted on a non- virtual interface. All packets that may be re- transmitted are associated with an LSDB entry. The LS type, LS ID, and Router ID are used to identify the LSDB entry.
Trap Message:
OSPF router id <snOspfRouterId> interface <snOspfIfStatusIpAddress> retransmitted packet type <snOspfPacketType>,LSDB type <snOspfLsdbType>, LSDB LS ID <snOspfLsdbLsId> and LSDB router id <snOspfLsdbRouterId> to Neighbor router id <snOspfNbrRtrId>.
ospfVirtIfTxRetransmit
1.3.6.1.2.1.14.16.2.11
snOspfRouterId (The originator of the trap)
snOspfVirtIfStatusAreaID
snOspfVirtIfStatusNeighbor
snOspfPacketType
snOspfLsdbType
snOspfLsdbLsId
snOspfLsdbRouterId
Warning An OSPF packet has been retransmitted on a virtual interface. All packets that may be retransmitted are associated with an LSDB entry. The LS type, LS ID, and Router ID are used to identify the LSDB entry.
Trap Message:
OSPF router id <snOspfRouterId>, virtual interface area id snOspfVirtIfStatusAreaID> retransmitted packet type <snOspfPacketType>,LSDB type <snOspfLsdbType>, LSDB LS ID <snOspfLsdbLsId> and LSDB router id <snOspfLsdbRouterId> to Neighbor <snOspfVirtIfStatusNeighbor>.
Trap Name and Number
Varbinds Severity Description and Trap Message
30-38 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
snOspfOriginateLsa
1.3.6.1.2.1.14.16.2.12
snOspfRouterId (The originator of the trap)
snOspfLsdbAreaId (0.0.0.0 for AS Externals)
snOspfLsdbType
snOspfLsdbLsId
snOspfLsdbRouterId
Informational This router originated a new LSA. This trap should not be invoked for simple refreshes of LSAs (which happens every 30 minutes), but instead will only be invoked when an LSA is (re-originated due to a topology change. Additionally, this trap does not include LSAs that are being flushed because they have reached MaxAge
Trap Message:
New LSA (area id <snOspfLsdbAreaId>, type <snOspfLsdbType>, LS Id <snOspfLsdbLsId> and router id <snOspfLsdbRouterId>) has been originated by router id <snOspfRouterId>.
snOspfMaxAgeLsa
1.3.6.1.2.1.14.16.2.13
snOspfRouterId (The originator of the trap)
snOspfLsdbAreaId (0.0.0.0 for AS Externals)
snOspfLsdbType
snOspfLsdbLsId
snOspfLsdbRouterId
Warning One of the LSA in the router’s link-state database has aged to MaxAge.
Trap Message:
The LSA (area id <snOspfLsdbAreaId>, type <snOspfLsdbType>, LS Id <snOspfLsdbLsId> and router id <snOspfLsdbRouterId>) in router id <snOspfRouterId> link-state database has aged to maximum age.
snOspfLsdbOverflow
1.3.6.1.2.1.14.16.2.14
snOspfRouterId (The originator of the trap)
snOspfExtLsdbLimit
Warning The number of LSAs in the router’s link-state database has exceeded the ospfExtLsdbLimit.
Trap Message:
The number of LSAs in the OSPF router id <snOspfRouterId> link-state database has exceeded <snOspfExtLsdbLimit>.
snOspfLsdbApproachingOverflow
1.3.6.1.2.1.14.16.2.15
snOspfRouterId (The originator of the trap)
snOspfExtLsdbLimit
Informational The number of LSAs in the router’s link-state database has exceeded ninety percent of the ospfExtLsdbLimit.
Trap Message:
The number of LSAs in the OSPF router id <snOspfRouterId> link-state database has exceeded ninety percent of <snOspfExtLsdbLimit>.
Trap Name and Number
Varbinds Severity Description and Trap Message
April 2008 © 2008 Foundry Networks, Inc. 30-39
Foundry Management Information Base Reference
Layer 4 Traps The following table presents the traps that can be generated for Layer 4 functionalities.
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapL4MaxSessionLimitReached
fdry.0.19
snL4MaxSessionLimit
Warning The maximum number of connections has been reached.
Trap Message:
SLB maximum number of connections <snL4MaxSessionLimit> has been reached.
snTrapL4TcpSynLimitReached
fdry.0.20
snL4TcpSynLimit Warning The TCP SYN limits have been reached.
Trap Message:
SLB TCP Syn limits <snL4TcpSynLimit> have been reached.
snTrapL4RealServerUp
fdry.0.21
snL4TrapRealServerIP
snL4TrapRealServerName
Informational The load balancing real server is up.
Trap Message:
SLB real server <snL4TrapRealServerIP> <snL4TrapRealServerName> is up.
snTrapL4RealServerDown
fdry.0.22
snL4TrapRealServerIP
snL4TrapRealServerName
Informational The load balancing real server is down.
Trap Message:
SLB real server <snL4TrapRealServerIP> <snL4TrapRealServerName> is down.
snTrapL4RealServerPortUp
fdry.0.23
snL4TrapRealServerIP
snL4TrapRealServerName
snL4TrapRealServerPort
Informational The load balancing real server TCP port is up.
Trap Message:
SLB real server port <snL4TrapRealServerIP> <snL4TrapRealServerName> <snL4TrapRealServerPort> is up
snTrapL4RealServerPortDown
fdry.0.24
snL4TrapRealServerIP
snL4TrapRealServerName
snL4TrapRealServerPort
Informational The load balancing real server TCP port is down.
Trap Message:
SLB real server port <snL4TrapRealServerIP> <snL4TrapRealServerName> <snL4TrapRealServerPort> is.
30-40 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
snTrapL4RealServerMaxConnectionLimitReached
fdry.0.25
snL4TrapRealServerIP
snL4TrapRealServerName
snL4TrapRealServerCurConnections
Warning The real server reached its maximum number of connections.
Trap Message:
SLB real server <snL4TrapRealServerIP> <snL4TrapRealServerName> maximum connection <snL4TrapRealServerCurConnections> has been reached.
snTrapL4RealServerResponseTimeLowerLimit
fdry.0.67
snAgGblTrapMessage
Warning The real server average response time exceeded the lower threshold.
Trap Message:
Port <port-num> on server <server-name>: <IP>: Avg response time <num> has exceeded lower threshold
snTrapL4RealServerResponseTimeUpperLimit
fdry.0.68
snAgGblTrapMessage
Warning The real server average response time exceeded the upper threshold.
Trap Message:
Port <port-num> on server <server-name>: <IP>: Avg response time <num> has exceeded upper threshold; Bringing down the port...
snTrapL4BecomeStandby
fdry.0.26
Warning The Server Load Balancing switch changed its state from active to standby.
Trap Message:
SLB changes state from active to standby.
snTrapL4BecomeActive
fdry.0.27
Warning The Server Load Balancing switch changed its state from standby to active.
Trap Message:
SLB changes state from standby to active.
snTrapL4GslbRemoteUp
fdry.0.39
snAgGblTrapMessage
Warning The connection to the remote ServerIron is up.
Trap Message:
L4 gslb connection to site <name> SI <agent IP> <SI name> is up
Trap Name and Number
Varbinds Severity Description and Trap Message
April 2008 © 2008 Foundry Networks, Inc. 30-41
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snTrapL4GslbRemoteDown
fdry.0.40
snAgGblTrapMessage
Warning The connection to the remote ServerIron is down.
Trap Message:
L4 gslb connection to site <name> SI <agent IP> <SI name> is down
snTrapL4GslbRemoteControllerUp
fdry.0.41
snAgGblTrapMessage
Warning The connection to the GSLB ServerIron is up.
Trap Message:
L4 gslb connection to gslb SI <IP> is up
snTrapL4GslbRemoteControllerDown
fdry.0.42
snAgGblTrapMessage
Warning The connection to the GSLB ServerIron is down.
Trap Message:
L4 gslb connection to gslb SI <IP> is down
snTrapL4GslbHealthCheckIpUp
fdry.0.43
snAgGblTrapMessage
Warning The GSLB health check for an address changed from the down to the active state.
Trap Message:
L4 gslb health-check <IP> of <subname>.<zonename> status changed to up
snTrapL4GslbHealthCheckIpDown
fdry.0.44
snAgGblTrapMessage
Warning The GSLB health check for an address changed from the active to the down state.
Trap Message:
L4 gslb health-check <IP> of <subname>.<zonename> status changed to down
snTrapL4GslbHealthCheckIpPortUp
fdry.0.45
snAgGblTrapMessage
Warning A port for a health check address is up.
Trap Message:
L4 gslb health-check <IP> of <subname>.<zonename> port <server-port> is up
snTrapL4GslbHealthCheckIpPortDown
fdry.0.46
snAgGblTrapMessage
Warning A port for a health check address is down.
Trap Message:
L4 gslb health-check <IP> of <subname>.<zonename> port <server-port> is down
Trap Name and Number
Varbinds Severity Description and Trap Message
30-42 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
snTrapL4FirewallBecomeStandby
fdry.0.47
Major The Server Load Balancing switch firewall changed its state from active to standby.
Trap Message:
firewall group #<group> become standby
snTrapL4FirewallBecomeActive
fdry.0.48
Major The Server Load Balancing switch firewall changed its state from standby to active.
Trap Message:
firewall group #<group> become active
snTrapL4FirewallPathUp
fdry.0.49
Minor The Server Load Balancing switch firewall path is up.
Trap Message:
firewall path up target <IP> nexthop <IP> path <num> port <num>
snTrapL4FirewallPathDown
fdry.0.50
Minor The Server Load Balancing switch firewall path is down.
Trap Message:
Firewall path down target <IP> nexthop <IP> path <num> port <num>
snTrapL4ContentVerification
fdry.0.55
Informational The HTTP match list pattern has been found.
Trap Message:
HTTP match-list pattern is found.
snTrapL4TcpAttackRateExceedMax
fdry.0.69
snAgGblTrapMessage
Warning The TCP attack rate exceeds the configured maximum TCP attack rate.
Trap Message:
L4 TCP Attack Rate Exceed Max
snTrapL4TcpAttackRateExceedThreshold
fdry.0.70
snAgGblTrapMessage
Warning The TCP attack rate exceeds 80% of the configured maximum.
Trap Message:
L4 TCP Attack Rate Exceed Threshold
snTrapL4ConnectionRateExceedMax
fdry.0.71
snAgGblTrapMessage
Critical Layer 4 connection rate exceeds the configured maximum.
Trap Message:
L4 Connection Rate Exceed Max
Trap Name and Number
Varbinds Severity Description and Trap Message
April 2008 © 2008 Foundry Networks, Inc. 30-43
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ICMP Traps
TCP Trap
snTrapL4ConnectionRateExceedThreshold
fdry.0.72
snAgGblTrapMessage
Warning The Layer 4 connection rate exceeds 80% of the configured maximum.
Trap Message:
L4 Connection Rate Exceed Threshold
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapIcmpLocalExceedBurst
fdry.0.51
snAgGblTrapMessage
Warning Incoming ICMP exceeded the maximum local burst packets.
Trap Message:
Local ICMP exceeds <num> burst packets, stopping for <num> seconds!!
snTrapIcmpTransitExceedBurst
fdry.0.52
snAgGblTrapMessage
Warning Transit ICMP exceeded the maximum transit burst.
Trap Message:
Transit ICMP in interface <port-num> exceeds <num> burst packets, stopping for <num> seconds!!
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapTcpLocalExceedBurst
fdry.0.53
snAgGblTrapMessage
Warning Incoming TCP SYN exceeded the maximum local burst packets.
Trap Message:
Local TCP exceeds <num> burst packets, stopping for <num> seconds!!
Trap Name and Number
Varbinds Severity Description and Trap Message
30-44 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
BGP Traps
snTrapTcpTransitExceedBurst
fdry.0.54
snAgGblTrapMessage
Warning Transit TCP exceeded the maximum transit burst packets.
Trap Message:
Transit TCP in interface <port-num> exceeds <num> burst packets, stopping for <num> seconds!!
On ServerIron software release 09.0.00S, this trap is generated when the number of source MAC addresses received from a port is greater than the maximum number of MAC addresses configured for that port. The trap message displays the port name and port number.
Trap Message:
Locked address violation at <port-name> <port-num>, address <mac>
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapBgpPeerUp
fdry.0.54
snAgGblTrapMessage
Informational The BGP peer is up.
Trap Message:
BGP Peer <IP> UP(ESTABLISHED)
snTrapBgpPeerDown
fdry.0.66
snAgGblTrapMessage
Informational The BGP peer is down.
Trap Message:
BGP Peer <IP> DOWN (<reason-string>)\n
Trap Name and Number
Varbinds Severity Description and Trap Message
April 2008 © 2008 Foundry Networks, Inc. 30-45
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Port Security TrapsThe Port Security feature enables Foundry device to learn a limited number of “secure” MAC addresses on an interface. The interface will forward only those packets with source MAC addresses that match these secure addresses. If the interface receives MAC addresses that are included in its secure MAC list, the Foundry device generates the following traps:
NOTE: This trap applies to ports that have the Port Security feature enabled. Port security is available beginning with IronWare software release 07.5.04A.
MRP Traps
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapPortSecurityViolation
fdry.0.77
snAgGblTrapMessage
Minor Packets from unknown MAC address are dropped.
Sample Trap Message:
Foundry Trap: Port Security Violation
snTrapPortSecurityShutdown
fdry.0.78
snAgGblTrapMessage
Minor The port is disabled for the amount of time configured using the violation shutdown <minutes> port security CLI command.
Sample Trap Message:
Foundry Trap: Port Security Violation Cause Shutdown
snTrapPortPriorityChange
fdry.0.122
snAgGblTrapMessage
Informational This trap is generated when a port’s priority is changed.
Format:
Port <port-number> priority changed to <new-priority>
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapMrpStateChange
fdry.0.79
snAgGblTrapMessage
Informational An MRP state occurred.
snTrapMrpCamError
fdry.0.80
snAgGblTrapMessage
Informational An MRP CAM error occurred.
30-46 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
MPLS Traps
NOTE: These traps are not supported on the NetIron XMR Series routers and NetIron MLX Series routers.
Traps for CAM Overflow Foundry supports the following traps for CAM Overflow. These traps are supported in the following devices:
• Multi-Service IronWare software release 03.5.00 and later for NetIron XMR Series
• Multi-Service IronWare software release 03.5.00 and later for NetIron MLX Series
Traps for Bidirectional Forwarding (BFD)Foundry supports the following traps for Bidirectional Forwarding. These traps are supported in the following devices:
• Multi-Service IronWare software release 03.5.00 and later for NetIron XMR Series
• Multi-Service IronWare software release 03.5.00 and later for NetIron MLX Series
• Multi-Service IronWare software release 02.6.00 and later for BigIron RX Series
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapMplsProblem
fdry.0.57
Major MPLS problem detected.
Trap Message:
MPLS Problem detect.
snTrapMplsException
fdry.0.58
Major MPLS exception detected.
Trap Message:
MPLS Exception detect.
snTrapMplsAudit
fdry.0.59
Informational MPLS audit trap.
Trap Message:
MPLS Audit Trap.
snTrapMplsDeveloper
fdry.0.60
Informational MPLS developer trap.
Trap Message:
MPLS Developer Trap.
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapCAMOverflow
fdry.0.1002
snAgGblTrapMessage
Alerts Displays the SNMP trap that is generated when any CAM partition becomes full.
Trap Message:
CAM partition full
April 2008 © 2008 Foundry Networks, Inc. 30-47
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.
Trap Name and Number
Varbinds Severity Description and Trap Message
bfdSessUp
fdry.3.3.1.0.1
bfdSessDiag, -- low range value
bfdSessDiag -- high range value
Notification This notification is generated when the bfdSessState object for one or more contiguous entries in bfdSessTable are about to enter the up(2) state from some other state. The included values of bfdSessDiag MUST both be set equal to this new state (i.e: up(1)).
The two instances of bfdSessDiag in this notification indicate the range of indexes that are affected.
NOTE: All the indexes of the two ends of the range can be derived from the instance identifiers of these two objects. For the cases where a contiguous range of sessions have transitioned into the up(1) state at roughly the same time, the device SHOULD issue a single notification for each range of contiguous indexes in an effort to minimize the emission of a large number of notifications. If a notification has to be issued for just a single bfdSessEntry, then the instance identifier (and values) of the two bfdSessDiag objects MUST be the identical.
30-48 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
MPLS LSP TrapsThe following traps are generated for the MPLS LSP feature supported on the NetIron XMR Series routers and NetIron MLX Series routers, beginning with software release 03.5.00.
NOTE: Do not use these traps if you are using the snTrapTMLogging traps.
bfdSessDown
fdry.3.3.1.0.2
bfdSessDiag, -- low range value 678: bfdSessDiag -- high range value
Notification This notification is generated when the 683: bfdSessState object for one or more contiguous 684: entries in bfdSessTable are about to enter the down(4) 685: or adminDown(5) states from some other state. The included 686: values of bfdSessDiag MUST both be set equal to this 687: new state (i.e: down(4) or adminDown(5)). The two instances 688: of bfdSessDiag in this notification indicate the range 689: of indexes that are affected.
NOTE: All the indexes 690: of the two ends of the range can be derived from the 691: instance identifiers of these two objects. For 692: cases where a contiguous range of sessions 693: have transitioned into the down(4) or adminDown(5) states 694: at roughly the same time, the device SHOULD issue a single 695: notification for each range of contiguous indexes in 696: an effort to minimize the emission of a large number 697: of notifications. If a notification has to be 698: issued for just a single bfdSessEntry, then 699: the instance identifier (and values) of the two 700: bfdSessDiag objects MUST be the identical.
Trap Name and Number
Varbinds Severity Description and Trap Message
snMplsLspUp
fdry.0.1010
mplsLspName, mplsPathName
Informational The specified LSP is up. The current active path for the LSP is the value of mplsPathName.
Sample Trap Message:
Trap Name and Number
Varbinds Severity Description and Trap Message
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Traps for Wireless Features
NOTE: The traps in the sections below are available on devices that support the wireless features, such as automatic discovery and configuration (ADC), wireless mobility, and others.
Wireless Feature Traps
The IronPoint–FES generates the following general traps for wireless feature support. See the sections below on specific wireless features to determine what traps are generated for that feature.
snMplsLspDown
fdry.0.1011
mplsLspName, mplsPathName
Informational The specified LSP is down, because the current active path specified by the mplsPathName went down.
Sample Trap Message:
snMplsLspChange
fdry.0.1012
mplsLspName, mplsPathName
Informational The specified the specified LSP has switched traffic to the new active path ”toLspPath”. The LSP maintains an UP state before and after the switchover.
Sample Trap Message:
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapWirelessStationStateChange
fdry.0.127
snAgGblTrapMessage
Alert The state of the wireless station (client) that is associated with this IronPoint–FES through the access point has changed.
Trap Message
<date-time>:N: New Station <mac-address> discovered | removed
snTrapWirelessSappStateChange
fdry.0.129
snAgGblTrapMessage
Alert The state of the communication between an access point and this IronPoint–FES has changed.
Trap Message
<date-time>:N:AP <AP-IP-address> has changed state from <old-state> to<new-state>
Trap Name and Number
Varbinds Severity Description and Trap Message
30-50 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
Wireless Mobility Traps
The following traps are generated by the IronPoint–FES for Wireless Mobility.
ADC Trap
The following SNMP trap is generated for the ADC feature.
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapWirelessIsrpPeerStateChange
fdry.0.126
snAgGblTrapMessage
Alert The state of an IronPoint–FES peer has changed.
Trap Message
<date-time>:N:Mobility Peer <IronPoint–FES-IP-address> has changed state from <old-state> to <new-state>
snTrapWirelessStationRoamingEventTriggered
fdry.0.128
snAgGblTrapMessage
Alert A wireless station (client) roamed from or to the access point that is attached to this IronPoint–FES.
Trap Message
<date-time>:N:Station 0009.5b66.eac6 has roamed to switch <IronPoint–FES-IP-address>
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapPnPStatusChange
fdry.0.125
snAgGblTrapMessage
Informational The access point’s ADC status changed.
Trap Message
<date-time>:N:PnP status of AP MAC address <mac-address> at port <port-number> has changed from <old state> to <new-state>
April 2008 © 2008 Foundry Networks, Inc. 30-51
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Automatic Port Disablement Traps
The following traps are generated for the Automatic Port Deactivation feature.
SNMP Traps for RSVP-Signaled LSP stateMulti-Service IronWare software release 03.0.00 for the NetIron XMR Series and NetIron IMR 640 routers and Multi-Service IronWare software release 03.1.00 for the NetIron MLX Series routers provide SNMP traps that identify when an RSVP-Signaled LSP goes up and down and also when an LSP switches traffic to a new active path as described in the following.
UDLD Traps Multi-Service IronWare software release 02.4.00 for the BigIron RX provides UDLD traps that when UDLD is configured, it will log UDLD state changes.
Trap Name and Number
Varbinds Severity Description and Trap Message
snTrapAutoPortDisableTrigger
fdry.0.123
snAgGblTrapMessage
Alerts The specified interface has been deactivated and disabled.
Trap Message
Automatic port disable was triggered at port <port-number>
snTrapAutoPortDisableRelease
fdry.0.124
snAgGblTrapMessage
Alerts The disabled interface has been released and re-enabled.
Trap Message
Automatic port disable was released at port <port-number>
Trap Name and Number Varbinds Severity System Message Format
snMplsLspUp
fdry.0.139
mplsLspNamemplsPathName
Informational Informs that the specified RSVP-signaled LSP using the specified active path is up.
snMplsLspUp
fdry.0.140
mplsLspNamemplsPathName
Informational Informs that the specified RSVP-signaled LSP is down because the current active path went down.
snMplsLspChange
fdry.0.141
mplsLspNamemplsPathName
Informational Informs that the specified RSVP-signaled LSP has switched traffic to the specified new active path. The LSP maintains an up state before and after the switch over.
Trap Name and Number Varbinds Severity System Message Format
snTrapUDLDLinkDown
fdry.0.145
ifIndexsnAgGblTrapMessage
Notification The SNMP trap that is generated when UDLD port link status has changed to down.
30-52 © 2008 Foundry Networks, Inc. April 2008
Traps and Objects to Enable Traps
BPDU Guard and Root Guard TrapsThe following are traps for BPDU Guard and Root Guard. They are available in the following releases:
• FSX software release 03.2.00 and later
• FGS software release 03.0.00 and later
• BigIron software release 07.8.03
• BigIron RX software release 02.6.00 and later.
• NetIron XMR/MLX software release 03.8.00 and later.
snTrapUDLDLinkUp
fdry.0.146
ifIndexsnAgGblTrapMessage
Notification The SNMP trap that is generated when UDLD port link status has changed to up.
Trap Name and Number Varbinds Severity Description and Trap Message
snTrapStpRootGuardDetect
fdry.0.150
ifIndex, snVLanByPortCfgVLanId, snAgGblTrapMessage
Notification The SNMP trap that is generated when a Root-Guarded port receives superior BPDU.
Trap Message
Foundry Trap: Stp root guard detect
snTrapStpRootGuardExpire
fdry.0.151
ifIndex, snVLanByPortCfgVLanId, snAgGblTrapMessage
Notification The SNMP trap that is generated when a port’s Root-Guard expires.
Trap Message
Foundry Trap: Stp root guard expire
snTrapStpBPDUGuardDetect
fdry.0.152
ifIndex, snVLanByPortCfgVLanId, snAgGblTrapMessage
Notification The SNMP trap that is generated when a BPDU-guarded is disabled because it received a BPDU.
Trap Message
Foundry Trap: STP BPDU guard
snTrapMstpBPDUGuardDetect
fdry.0.153
NOTE: This object is not supported on the NetIron XMR, or NetIron MLX. Use “snTrapStpRootGuardExpire” on page 30-54 instead.
ifIndex, snAgGblTrapMessage
Notification The SNMP trap that is generated when a BPDU-guarded port receiveds a BPDU.
Trap Message
Foundry Trap: MSTP BPDU guard.
Trap Name and Number Varbinds Severity System Message Format
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Examples
RMON Event TrapsThe following is an example of how to generate an SNMP trap for an RMON event.
If you want to configure a Foundry device to send an SNMP trap when CPU utilization is exceeds 50 percent, do the following:
1. Configure an RMON alarm with an ID of 1 that checks for snAgGblCpuUtil1MinAvg every 300 sec. In every sample, check if the CPU utilization falls exceeds 50 percent. If it does, send an event(id 1) with owner name as "Tom". The event trigger is re-armed, when the falling-threshold value falls below 45%
BigIron(config)# rmon alarm 1 snAgGblCpuUtil1MinAvg.0 300 absolute rising-threshold 50 1 falling-threshold 45 65535 owner Tom
2. Configure an RMON event with an ID of 1, which sends an send a SNMP trap that contains the community string "public", some description, and owner Tom whenever CPU utilization exceeds 50 percent.
BigIron(config)# rmon event 1 description "CPU Utilization exceeds 50%" trap public owner Tom
snTrapErrorDisableAction
fdry.0.154
NOTE: This object is not supported on the BigIron RX and the NetIron XMR, or NetIron MLX.
ifIndex, snAgGblTrapMessage
Notification The SNMP trap that is generated when Interface error-disable is hit or recovery times out.
Trap Message
Foundry Trap: Error-disable hit or recovery times out.
snTrapStpRootGuardExpire
fdry.0.160
NOTE: This object is supported in NetIron XMR/MLX software release 03.8.00 and later.
ifIndex, snVLanByPortCfgVLanId, snAgGblTrapMessage
Notification The SNMP trap that is generated when a port is re-enabled after it has been disabled because it received a BPDU packet and BPDU Guard is enabled.
Trap Message
Foundry Trap: STP BPDU Guard Expire.
Trap Name and Number Varbinds Severity Description and Trap Message
30-54 © 2008 Foundry Networks, Inc. April 2008
Appendix AUsing SNMP to Upgrade Software
This chapter presents some of the common procedures for using SNMP MIB objects to manage Foundry devices.
You can use a third-party SNMP management application such as HP OpenView to upgrade software on a Foundry device.
NOTE: In software releases earlier than 07.5.00, the SNMP agent does not check for type validity with the SNMP version. In software release 07.5.00 and above, the SNMP agent does not send a reply for a varbind, if the type of the varbind is not a known type for that version of SNMP. For example, MIB objects of type Counter64 cannot be retrieved using a v1 packet, as Counter64 is a v2c and v3 type.
NOTE: Make sure you use the correct procedure for your device and processor type. For example, do not use the Management Processor procedure to upgrade the Switching Processors on a module.
NOTE: The syntax shown in this section assumes that you have installed HP OpenView in the “/usr” directory.
NOTE: Foundry recommends that you make a backup copy of the startup-config file before you upgrade the software. If you need to run an older release, you will need to use the backup copy of the startup-config file.
This appendix presents the following procedures:
• “Upgrading a Stackable Device or a Chassis Module’s Management Processor” on page A-1
• “Upgrading Switching Processors on a Chassis Device” on page A-2
Upgrading a Stackable Device or a Chassis Module’s Management Processor
Use this procedure to upgrade the following:
• A Stackable device
• A management II, III, or IV module
• The management processor on the Velocity Management Module (VM1)
To upgrade flash code on the Management Processor:
1. Configure a read-write community string on the Foundry device, if one is not already configured. To configure a read-write community string, enter the following command from the global CONFIG level of the CLI:
April 2008 © 2008 Foundry Networks, Inc. A-1
Foundry Management Information Base Reference
snmp-server community <string> ro | rw
where <string> is the community string and can be up to 32 characters long.
2. On the Foundry device, enter the following command from the global CONFIG level of the CLI:
no snmp-server pw-check
This command disables password checking for SNMP set requests. If password checking is enabled (the default) and a third-party SNMP management application does not add a password to the password field when it sends SNMP set requests to a Foundry device, the Foundry device rejects the request.
3. From the command prompt in the UNIX shell, enter the following command:
/usr/OV/bin/snmpset -c <rw-community-string> <fdry-ip-addr> fdry.1.1.2.1.5.0 ipaddress <tftp-ip-addr> fdry.1.1.2.1.6.0 octetstringascii <file-name>fdry.1.1.2.1.7.0 integer <command-integer>
where:
<rw-community-string> is a read-write community string configured on the Foundry device.
<fdry-ip-addr> is the Foundry device’s IP address.
<tftp-ip-addr> is the TFTP server’s IP address.
<file-name> is the image file name.
<command-integer> is one of the following:
• 20 – Download the flash code into the device’s primary flash area.
• 22 – Download the flash code into the device’s secondary flash area.
Upgrading Switching Processors on a Chassis DeviceUse this procedure to upgrade the Switching Processors on the following types of modules:
• Velocity Management Module (VM1)
• OC-3, OC-12, and OC-48 non-Network Processor Architecture (NPA) POS modules
• OC-48 NPA POS modules
• ATM modules
To upgrade flash code on the Switching Processors:
1. Configure a read-write community string on the Foundry device, if one is not already configured. To configure a read-write community string, enter the following command from the global CONFIG level of the CLI:
snmp-server community <string> ro | rw
where <string> is the community string and can be up to 32 characters long.
2. On the Foundry device, enter the following command from the global CONFIG level of the CLI:
no snmp-server pw-check
This command disables password checking for SNMP set requests. This command disables password checking for SNMP set requests. If password checking is enabled (the default) and a third-party SNMP management application does not add a password to the password field when it sends SNMP set requests to a Foundry device, the Foundry device rejects the request.
3. From the command prompt in the UNIX shell, enter the following command:
/usr/OV/bin/snmpset -c <rw-community-string> <fdry-ip-addr> fdry.1.1.2.1.5.0 ipaddress <tftp-ip-addr> fdry.1.1.2.1.6.0 octetstringascii <file-name>fdry.1.1.2.1.56.0 integer <module-type>
A-2 © 2008 Foundry Networks, Inc. April 2008
Using SNMP to Upgrade Software
fdry.1.1.2.1.57.0 integer <slotnum>fdry.1.1.2.1.7.0 integer <command-integer>
where:
<rw-community-string> is a read-write community string configured on the Foundry device.
<fdry-ip-addr> is the Foundry device’s IP address.
<tftp-ip-addr> is the TFTP server’s IP address.
<file-name> is the image file name.
<module-type> is one of the following:
• 2 – VM1 module.
• 3 – OC-3, OC-12, and OC-48 non-Network Processor Architecture (NPA) POS modules.
• 4 – OC-48 NPA POS modules.
• 5 – ATM module.
<slotnum> is the slot that contains the module you are upgrading. To upgrade all modules of the type you specified, enter 0 (zero):
<command-integer> is one of the following:
• 24 – Download the flash code into the device’s primary flash area.
• 25 – Download the flash code into the device’s secondary flash area.
April 2008 © 2008 Foundry Networks, Inc. A-3
Foundry Management Information Base Reference
A-4 © 2008 Foundry Networks, Inc. April 2008
Index by Object Name
Use this index to search for a MIB object by name.
fdryIpv6AclSourcePrefixLen 12-21
accessIron 4-22
agAclAccntAclName 12-19
agAclAccntAclNumber 12-19
agAclAccntCumulative 12-19
agAclAccntDirection 12-18
agAclAccntEntry 12-18
agAclAccntFilterId 12-19
agAclAccntFiveMinute 12-19
agAclAccntIfIndex 12-18
agAclAccntKind 12-18
agAclAccntOneMinute 12-19
agAclAccntOneSecond 12-19
agAclAccntRaclDropCnt 12-19
agAclAccntRaclFwdCnt 12-19
agAclAccntRaclRemarkCnt 12-19
agAclAccntRaclTotalCnt 12-19
agAclAccntRaclTotalSWHitCountCnt 12-20
agAclAccntTable 12-18
bfdAdminStatus 25-1
bfdSessAddr 25-4
bfdSessAddrType 25-4
bfdSessApplicationId 25-2
bfdSessAuthenticationType 25-5
bfdSessAuthPressFlag 25-4
bfdSessControPlanIndepFlag 25-3
bfdSessDemandModeDesiredFlag 25-3
bfdSessDesiredMinTxInterval 25-4
bfdSessDetectMult 25-4
bfdSessDiag 25-3
bfdSessDiscriminator 25-2
bfdSessEchoFuncModeDesiredFlag 25-3
bfdSessEntry 25-2
bfdSessIndex 25-2
bfdSessMapBfdIndex 25-6
BfdSessMapTable 25-6
bfdSessNotificationsEnable 25-1
bfdSessNotificationsEnable 25-1
bfdSessOperMode 25-3
bfdSessPerfDiscTime 25-6
bfdSessPerfEntry 25-5
bfdSessPerfLastCommLostDiag 25-5
bfdSessPerfLastSessDownTime 25-5
bfdSessPerfPktIn 25-5
bfdSessPerfPktInHC 25-6
bfdSessPerfPktOut 25-5
bfdSessPerfPktOutHC 25-6
bfdSessPerfSessUpCount 25-5
bfdSessPerfTable 25-5
bfdSessPerfUpTime 25-5
bfdSessRemoteDiscr 25-2
bfdSessRemoteHeardFlag 25-2
bfdSessReqMinEchoRxInterval 25-4
bfdSessReqMinRxInterval 25-4
bfdSessRowStatus 25-4
bfdSessState 25-2
bfdSessStorType 25-4
bfdSessTable 25-2
bfdSessUdpPort 25-2
bfdSessUp 30-48
bgpPeerAdminStatus 3-25
bgpPeerConnectRetryInterval 3-25
bgpPeerEntry 3-25
bgpPeerFsmEstablishedTime 3-25
bgpPeerFsmEstablishedTransitions 3-25
April 2008 © 2008 Foundry Networks, Inc. Index-1
Foundry Management Information Base Reference
bgpPeerHoldTime 3-25
bgpPeerHoldTimeConfigured 3-25
bgpPeerIdentifier 3-25
bgpPeerInTotalMessages 3-25
bgpPeerInUpdateElapsedTime 3-25
bgpPeerInUpdates 3-25
bgpPeerKeepAlive 3-25
bgpPeerKeepAliveConfigured 3-25
bgpPeerLastError 3-25
bgpPeerLocalAddr 3-25
bgpPeerLocalPort 3-25
bgpPeerMinASOriginationInterval 3-25
bgpPeerMinRouteAdvertisementInterval 3-25
bgpPeerNegotiatedVersion 3-25
bgpPeerOutTotalMessages 3-25
bgpPeerOutUpdates 3-25
bgpPeerRemoteAddr 3-25
bgpPeerRemoteAs 3-25
bgpPeerRemotePort 3-25
bgpPeerState 3-25
bgpPeerTable 3-25
dcrs7504Router 4-22
dcrs7504Switch 4-22
dcrs7508Router 4-22
dcrs7508Switch 4-22
dcrs7515Router 4-23
dcrs7515Switch 4-22
digitalChina 4-22
edgeIron 4-22
edgeIronMib 4-22
edgeIronType2 4-22
edgeIronType2Mib 4-22
fdry.1.1.3.2.7.1.25 15-26
fdry.1.3.34.11.1.2.1 4-14
fdry.1.3.34.11.1.2.2 4-14
fdry.1.3.34.11.1.2.3 4-14
fdry.1.3.34.11.2.1.1 4-14
fdry.1.3.34.11.2.1.2 4-14
fdry.1.3.34.11.2.2.1 4-14
fdry.1.3.34.11.2.2.2 4-14
fdry.1.3.34.11.2.2.3 4-14
fdry.1.3.34.11.3.1.1 4-14
fdry.1.3.34.11.3.1.2 4-14
fdry.1.3.34.11.3.2.1 4-14
fdry.1.3.34.13.1.2.1 4-16
fdry.1.3.34.13.1.2.2 4-16
fdry.1.3.34.13.1.2.3 4-16
fdry.1.3.34.13.2.1.1 4-16
fdry.1.3.34.13.2.1.2 4-16
fdry.1.3.34.13.2.2.1 4-16
fdry.1.3.34.13.2.2.2 4-16
fdry.1.3.34.13.2.2.3 4-16
fdry.1.3.34.13.3.1.1 4-16
fdry.1.3.34.13.3.1.2 4-16
fdry.1.3.34.13.3.2.1 4-16
fdry.1.3.34.6.1.2.1 4-9
fdry.1.3.34.6.1.2.2 4-9
fdry.1.3.34.6.1.2.3 4-9
fdry.1.3.34.6.2.1.1 4-9
fdry.1.3.34.6.2.1.2 4-9
fdry.1.3.34.6.2.2.1 4-9
fdry.1.3.34.6.2.2.2 4-9
fdry.1.3.34.6.2.2.3 4-9
fdry.1.3.34.6.3.1.1 4-9
fdry.1.3.34.6.3.1.2 4-9
fdry.1.3.34.6.3.2.1 4-10
fdry.1.3.34.7.1.2.1 4-10
fdry.1.3.34.7.1.2.2 4-10
fdry.1.3.34.7.1.2.3 4-10
fdry.1.3.34.7.2.1.1 4-10
fdry.1.3.34.7.2.1.2 4-10
fdry.1.3.34.7.2.2.1 4-10
fdry.1.3.34.7.2.2.2 4-10
fdry.1.3.34.7.2.2.3 4-10
fdry.1.3.34.7.3.1.1 4-10
fdry.1.3.34.7.3.1.2 4-10
fdry.1.3.34.7.3.2.1 4-10
fdryDnsDomainNameRowStatus 6-22
fdryDnsServerAddressAddr 6-21
fdryDnsServerAddressAddrType 6-21
fdryDnsServerAddressAddrType 6-22
fdryDnsServerAddressIndex 6-21
fdryDnsServerAddressRowStatus 6-21
fdryDnsServerAddressTable 6-21
fdryIpv6AclAction 12-20
fdryIpv6AclComments 12-22
Index-2 © 2008 Foundry Networks, Inc. April 2008
fdryIpv6AclDestinationIp 12-21
fdryIpv6AclDestinationOperand1 12-21
fdryIpv6AclDestinationOperand2 12-21
fdryIpv6AclDestinationOperator 12-21
fdryIpv6AclDestinationPrefixLen 12-21
fdryIpv6AclEntry 12-20
fdryIpv6AclEstablished 12-21
fdryIpv6AclIndex 12-20
fdryIpv6AclLogOption 12-21
fdryIpv6AclName 12-20
fdryIpv6AclProtocol 12-20
fdryIpv6AclRowStatus 12-22
fdryIpv6AclSourceIp 12-20
fdryIpv6AclSourceOperand1 12-21
fdryIpv6AclSourceOperand2 12-21
fdryIpv6AclSourceOperator 12-21
fdryIpv6AclTable 12-20
fdryRadiusServerAddr 7-16
fdryRadiusServerAddrType 7-16
fdryRadiusServerAuthPort 7-16
fdryRadiusServerEntry 7-16
fdryRadiusServerTable 7-15
fdrySntpServerAddr 6-27
fdrySntpServerAddrType 6-27
fdrySntpServerEntry 6-27
fdrySntpServerIndex 6-27
fdrySntpServerRowStatus 6-28
fdrySntpServerTable 6-27
fdrySntpServerVersion 6-27
fdryTacacsServerAddr 7-19
fdryTacacsServerAddrType 7-19
fdryTacacsServerAuthPort 7-19
fdryTacacsServerEntry 7-19
fdryTacacsServerIndex 7-19
fdryTacacsServerRowKey 7-19
fdryTacacsServerRowStatus 7-19
fdryTacacsServerTable 7-19
fdryTacacsServerUsage 7-19
fdryTrapReceiverAddr 30-4
fdryTrapReceiverCommunityOrSecurityName 30-4
fdryTrapReceiverEntry 30-4
fdryTrapReceiverIndex 30-4
fdryTrapReceiverSecurityModel 30-5
fdryTrapReceiverTable 30-4
fdryTrapReceiverUDPPort 30-5
ifCounterDiscontinuityGroup 3-10
isisAdjacencyChange 3-28
isisAreaAddrTable 3-26
isisAreaMismatch 3-28
isisAttemptToExceedMaxSequence 3-27
isisAuthenticationFailure 3-28
isisAuthenticationTypeFailure 3-28
isisCircLevelTable 3-27
isisCircTable 3-27
isisCircuitCounterTable 3-27
isisCorruptedLSPDetected 3-28
isisDatabaseOverload 3-27
isisIDLenMismatch 3-27
isisIPRATable 3-27
isisIsAdjAreaAddrTable 3-27
isisIsAdjIPAddrTable 3-27
isisIsAdjProtSuppTable 3-27
isisIsAdjTable 3-27
isisLSPErrorDetected 3-28
isisLSPSummaryTable 3-27
isisLSPTLVTable 3-27
isisLSPTooLargeToPropagate 3-28
isisManAreaAddrTable 3-26
isisManualAddressDrops 3-28
isisMaxAreaAddressesMismatch 3-28
isisNOTIFICATION 3-27
isisOrigLSPBuffSizeMismatch 3-28
isisOwnLSPPurge 3-28
isisPacketCounterTable 3-27
isisProtocolsSupportedMismatch 3-28
isisRedistributeAddrTable 3-26
isisRejectedAdjacency 3-28
isisRouterTable 3-26
isisSequenceNumberSkip 3-28
isisSummAddrTable 3-26
isisSysAdminState 3-26
isisSysID 3-26
isisSysL2toL1Leaking 3-26
isisSysLevelTable 3-26
isisSysLevelType 3-26
April 2008 © 2008 Foundry Networks, Inc. Index-3
Foundry Management Information Base Reference
isisSysMaxAge 3-26
isisSysMaxLSPGenInt 3-26
isisSysMaxPathSplits 3-26
isisSysNotificationEnable 3-26
isisSysPollESHelloRate 3-26
isisSysProtSupported 3-26
isisSysReceiveLSPBufferSize 3-26
isisSystemCounterTable 3-27
isisSysVersion 3-26
isisSysWaitTime 3-26
isisVersionSkew 3-28
lldpRemTablesChange 30-2
lldpXMedTopologyChangeDetected 30-2
md end 4-11
mplsActiveLsps 23-1
mplsConfiguredLsps 23-1
mplsFecAddr 3-24
mplsFecAddrPrefixLength 3-23
mplsFecAddrType 3-24
mplsFecIndex 3-23
mplsFecIndexNext 3-23
mplsFecLastChange 3-23
mplsFecRowStatus 3-24
mplsFecStorageType 3-24
mplsFecType 3-23
mplsL3VpnNumVrfRouteMaxThreshCleared 30-18
mplsL3VpnNumVrfSecIllglLblThrshExcd 30-18
mplsL3VpnVrfDown 30-18
mplsL3VpnVrfNumVrfRouteMaxThreshExceeded 30-18
mplsL3VpnVrfRouteMidThreshExceeded 30-18
mplsL3VpnVrfUp 30-18
mplsLdpEntityAdminStatus 3-19
mplsLdpEntityDiscontinuityTime 3-21
mplsLdpEntityHelloHoldTimer 3-20
mplsLdpEntityHopCountLimit 3-20
mplsLdpEntityIndex 3-19
mplsLdpEntityIndexNext 3-19
mplsLdpEntityInitSessionThreshold 3-20
mplsLdpEntityKeepAliveHoldTimer 3-20
mplsLdpEntityLabelDistMethod 3-20
mplsLdpEntityLabelRetentionMode 3-20
mplsLdpEntityLabelType 3-21
mplsLdpEntityLastChange 3-19
mplsLdpEntityLdpId 3-19
mplsLdpEntityMaxPduLength 3-20
mplsLdpEntityOperStatus 3-20
mplsLdpEntityPathVectorLimit 3-20
mplsLdpEntityProtocolVersion 3-19
mplsLdpEntityRowStatus 3-21
mplsLdpEntityStatsBadLdpIdentifierErrors 3-21
mplsLdpEntityStatsBadMessageLengthErrors 3-21
mplsLdpEntityStatsBadPduLengthErrors 3-21
mplsLdpEntityStatsBadTlvLengthErrors 3-21
mplsLdpEntityStatsKeepAliveTimerExpErrors 3-21
mplsLdpEntityStatsMalformedTlvValueErrors 3-21
mplsLdpEntityStatsSessionAttempts 3-21
mplsLdpEntityStatsSessionRejectedAdErrors 3-21
mplsLdpEntityStatsSessionRejectedLRErrors 3-21
mplsLdpEntityStatsSessionRejectedMaxPduEr-rors 3-21
mplsLdpEntityStatsSessionRejectedNoHelloEr-rors 3-21
mplsLdpEntityStatsShutdownReceivedNotifica-tions 3-21
mplsLdpEntityStatsShutdownSentNotifications 3-21
mplsLdpEntityStorageType 3-21
mplsLdpEntityTargetPeer 3-20
mplsLdpEntityTargetPeerAddr 3-21
mplsLdpEntityTargetPeerAddrType 3-20
mplsLdpEntityTcpPort 3-20
mplsLdpEntityTransportAddrKind 3-20
mplsLdpEntityUdpDscPort 3-20
mplsLdpHelloAdjacencyHoldTime 3-23
mplsLdpHelloAdjacencyHoldTimeRem 3-23
mplsLdpHelloAdjacencyIndex 3-23
mplsLdpHelloAdjacencyType 3-23
mplsLdpLspFecLastChange 3-22
mplsLdpLsrId 3-19
mplsLdpLsrLoopDetectionCapable 3-19
mplsLdpPeerLabelDistMethod 3-22
mplsLdpPeerLastChange 3-22
Index-4 © 2008 Foundry Networks, Inc. April 2008
mplsLdpPeerLdpId 3-22
mplsLdpPeerPathVectorLimit 3-22
mplsLdpPeerTransportAddr 3-22
mplsLdpPeerTransportAddrType 3-22
mplsLdpSessionDiscontinuityTime 3-22
mplsLdpSessionKeepAliveHoldTimeRem 3-22
mplsLdpSessionKeepAliveTime 3-22
mplsLdpSessionMaxPduLength 3-22
mplsLdpSessionPeerAddrIndex 3-24
mplsLdpSessionPeerNextHopAddr 3-24
mplsLdpSessionPeerNextHopAddrType 3-24
mplsLdpSessionProtocolVersion 3-22
mplsLdpSessionRole 3-22
mplsLdpSessionState 3-22
mplsLdpSessionStateLastChange 3-22
mplsLspAge 23-2
mplsLspEntry 23-2
mplsLspFrom 23-3
mplsLspIndex 23-2
mplsLspLastTransition 23-3
mplsLspName 23-2
mplsLspPackets 23-2
mplsLspPrimaryTimeUp 23-2
mplsLspSignalingProto 23-2
mplsLspState 23-2
mplsLspTable 23-2
mplsLspTimeUp 23-2
mplsLspTo 23-3
mplsLspTransitions 23-2
mplsPathName 23-3
mplsPathType 23-3
mplsVersion 23-1
ospfVirtIfTxRetransmit 30-38
pwAttachedPwIndex 3-30
pwDeleted 30-18
pwDown 30-18
pwEnetCompliances 3-29
pwEnetConformance 3-29
pwEnetEntry 3-29
pwEnetGroup 3-29
pwEnetGroup 3-29
pwEnetGroups 3-29
pwEnetModuleFullCompliance 3-29
pwEnetModuleReadOnlyCompliance 3-29
pwEnetPortIfIndex 3-29
pwEnetPortVlan 3-29
pwEnetPwIfIndex 3-29
pwEnetPwInstance 3-29
pwEnetPwVlan 3-29
pwEnetRowStatus 3-29
pwEnetStatsEntry 3-29
pwEnetStatsGroup 3-29
pwEnetStatsGroup 3-29
pwEnetStatsIllegalLength 3-29
pwEnetStatsIllegalVlan 3-29
pwEnetStatsTable 3-29
pwEnetStorageType 3-29
pwEnetTable 3-28
pwEnetVlanMode 3-29
pwFcsRetentioncfg 3-30
pwFragmentCfgSize 3-30
pwInboundVcLabel 3-30
pwIndexMappingEntry/pwIndexMappingVcID 3-30
pwIndexMappingEntry/pwIndexMappingVcIndex 3-30
pwIndexMappingEntry/pwIndexMappingVcType 3-30
pwOamEnable 3-30
pwOutboundVcLabel 3-30
pwPeerMappingEntry/pwPeerMappingVcID 3-31
pwPeerMappingEntry/pwPeerMappingVcIndex 3-31
pwPeerMappingEntry/pwPeerMappingVcType 3-31
pwPsnType 3-30
pwStorageType 3-30
pwUp 30-18
Read-only 15-26
Read-write 6-29
sn4802Router 4-3
sn4802SI 4-4
sn4802Switch 4-3
snAccountingCommandLevel 7-11
snAccountingCommandMethods 7-10
snAccountingExec 7-11
snAccountingSystem 7-11
April 2008 © 2008 Foundry Networks, Inc. Index-5
Foundry Management Information Base Reference
snAgAclAction 12-8
snAgAclBindToPortEntry 12-15
snAgAclBindToPortTable 12-15
snAgAclComments 12-13
snAgAclDestinationIp 12-10
snAgAclDestinationMask 12-10
snAgAclDestinationOperand1 12-11
snAgAclDestinationOperand2 12-11
snAgAclDestinationOperator 12-11
snAgAclDscpMapping 12-14
snAgAclDscpMarking 12-13
snAgAclEntry 12-7
snAgAclEstablished 12-12
snAgAclFlowCounter 12-12
snAgAclGblCurRowIndex 12-7
snAgAclIcmpCode 12-14
snAgAclIfBindDirection 12-17
snAgAclIfBindEntry 12-17
snAgAclIfBindIndex 12-17
snAgAclIfBindNameString 12-17
snAgAclIfBindNum 12-17
snAgAclIfBindTable 12-17
snAgAclIfBindVifPortList 12-17
snAgAclIfRowStatus 12-18
snAgAclIndex 12-7
snAgAclIpPriority 12-13
snAgAclLogOption 12-12
snAgAclName 12-7
snAgAclNameString 12-16
snAgAclNum 12-16
snAgAclNumber 12-7
snAgAclPacketCounter 12-12
snAgAclPortBindDirection 12-16
snAgAclPortNum 12-16
snAgAclPortRowStatus 12-16
snAgAclPrecedence 12-11
snAgAclPriorityForce 12-13
snAgAclPriorityMapping 12-13
snAgAclProtocol 12-8
snAgAclRowStatus 12-12
snAgAclSourceIp 12-8
snAgAclSourceMask 12-8
snAgAclSourceOperand1 12-9
snAgAclSourceOperand2 12-10
snAgAclSourceOperator 12-9
snAgAclStandardFlag 12-12
snAgAclTable 12-7
snAgAclTos 12-12
snAgBindPortListInVirtualInterface 12-16
snAgBootSeqEntry 6-12
snAgBootSeqFilename 6-12
snAgBootSeqIndex 6-12
snAgBootSeqInstruction 6-12
snAgBootSeqIpAddr 6-12
snAgBootSeqRowStatus 6-13
snAgBootSeqTable 6-12
snAgBuildDate 6-11
snAgBuildtime 6-11
snAgBuildVer 6-12
snAgCfgEosChkSum 6-29
snAgCfgEosEntry 6-29
snAgCfgEosIndex 6-29
snAgCfgEosPacket 6-29
snAgCfgEosTable 6-29
snAgConfigFromNVRAM 6-3
snAgDefGwayIp 6-13
snAgentBrdAlarmLeds 5-12
snAgentBrdAlarmLedString 5-13
snAgentBrdEntry 5-6
snAgentBrdExpBrdDescription 5-10
snAgentBrdExpBrdId 5-10
snAgentBrdExpPortTotal 5-10
snAgentBrdIndex 5-6
snAgentBrdMainBrdDescription 5-6
snAgentBrdMainBrdId 5-6
snAgentBrdMainPortTotal 5-10
snAgentBrdMediaLeds 5-11
snAgentBrdMediaLedString 5-13
snAgentBrdModuleStatus 5-11
snAgentBrdRedundantStatus 5-12
snAgentBrdRxTrafficLeds 5-12
snAgentBrdRxTrafficLedString 5-13
snAgentBrdSpeedLeds 5-11
snAgentBrdSpeedLedString 5-13
snAgentBrdStatusLeds 5-11
snAgentBrdStatusLedString 5-12
Index-6 © 2008 Foundry Networks, Inc. April 2008
snAgentBrdTable 5-6
snAgentBrdTrafficLeds 5-11
snAgentBrdTrafficLedString 5-13
snAgentBrdTxTrafficLeds 5-12
snAgentBrdTxTrafficLedString 5-13
snAgentConfigModuleDescription 5-17
snAgentConfigModuleEntry 5-14
snAgentConfigModuleIndex 5-15
snAgentConfigModuleMgmtModuleType 5-18
snAgentConfigModuleNumberOfCpus 5-18
snAgentConfigModuleNumberOfPorts 5-17
snAgentConfigModuleOperStatus 5-17
snAgentConfigModuleRowStatus 5-17
snAgentConfigModuleSerialNumber 5-17
snAgentConfigModuleTable 5-14
snAgentConfigModuleType 5-15
snAgentCpuUtilCpuId 26-3
snAgentCpuUtilEntry 26-3
snAgentCpuUtilInterval 26-4
snAgentCpuUtilSlotNum 26-3
snAgentCpuUtilTable 26-3
snAgentCpuUtilValue 26-4
snAgentEnableMgmtModRedunStateChange-Trap 30-6
snAgentHwBPAvailableRxQueues 27-2
snAgentHwBPFpgaRxSmc0Pkts 27-2
snAgentHwBPFpgaRxSmc1Pkts 27-2
snAgentHwBPFpgaRxTotalPkts 27-2
snAgentHwBPFpgaTxSmc0Pkts 27-2
snAgentHwBPFpgaTxSmc1Pkts 27-3
snAgentHwBPFpgaTxTotalPkts 27-3
snAgentHwBPFpgaWrQueDropSmc0 27-3
snAgentHwBPFpgaWrQueDropSmc1 27-3
snAgentHwBPFpgaWrQueDropTotal 27-3
snAgentHwBPIpcBuffersAllocFailure 27-7
snAgentHwBPIpcDropMsgs 27-6
snAgentHwBPIpcDropPkts 27-6
snAgentHwBPIpcMsgsBadPortNum 27-6
snAgentHwBPIpcMsgsNoCallBack 27-6
snAgentHwBPIpcMsgsOutOfRange 27-6
snAgentHwBPIpcMsgsWrongContent 27-6
snAgentHwBPIpcPktsBounceBack 27-6
snAgentHwBPIpcPktsCheckSumError 27-7
snAgentHwBPIpcPktsFragAgedOut 27-7
snAgentHwBPIpcPktsFragExceedMaxConn 27-7
snAgentHwBPIpcPktsFragMallocFailure 27-7
snAgentHwBPIpcPktsFragOutOfSync 27-7
snAgentHwBPIpcPktsTooLarge 27-7
snAgentHwBPIpcRxFragPkts 27-5
snAgentHwBPIpcRxMsgs 27-5
snAgentHwBPIpcRxPkts 27-5
snAgentHwBPIpcStatBpNumber 27-5
snAgentHwBPIpcStatEntry 27-5
snAgentHwBPIpcStatSlotNumber 27-5
snAgentHwBPIpcStatTable 27-5
snAgentHwBPIpcTotalBuffersAlloc 27-7
snAgentHwBPIpcTotalBuffersFree 27-7
snAgentHwBPIpcTxFragPkts 27-6
snAgentHwBPIpcTxMsgs 27-5
snAgentHwBPIpcTxMsgsError 27-6
snAgentHwBPIpcTxPkts 27-5
snAgentHwBPIpcTxPktsError 27-6
snAgentHwBPIpcTxQueuesFull 27-6
snAgentHwBPRdQueueDepth 27-4
snAgentHwBPRxQueueEmptyStatus 27-2
snAgentHwBPStatBpNumber 27-2
snAgentHwBPStatEntry 27-2
snAgentHwBPStatSlotNumber 27-2
snAgentHwBPStatTable 27-2
snAgentHwBPSwBufAlloc 27-4
snAgentHwBPSwBufAllocFail 27-5
snAgentHwBPSwBufFree 27-4
snAgentHwBPSwBufSend 27-4
snAgentHwBPSwDropCount 27-4
snAgentHwBPSwFwdCount 27-4
snAgentHwBPSwRxCount 27-4
snAgentHwBPSwRxSmc0Pkts 27-3
snAgentHwBPSwRxSmc1Pkts 27-3
snAgentHwBPSwRxTotalPkts 27-3
snAgentHwBPSwTxSmc0Pkts 27-3
snAgentHwBPSwTxSmc1Pkts 27-3
snAgentHwBPSwTxTotalPkts 27-3
snAgentHwBPTotalRxQueues 27-2
snAgentHwBPWrQueSmallPktsDrop 27-4
snAgentHwBPWrQueueFull 27-4
snAgentHwBPWrQueueHighDepth 27-4
April 2008 © 2008 Foundry Networks, Inc. Index-7
Foundry Management Information Base Reference
snAgentHwBPWrQueueLowDepth 27-4
snAgentRedunActiveMgmtMod 5-18
snAgentRedunBkupBootLoad 5-19
snAgentRedunBkupCopyBootCode 5-19
snAgentRedunSwitchOver 5-19
snAgentRedunSyncConfig 5-18
snAgentSysParaConfigCurrent 6-14
snAgentSysParaConfigDefault 6-14
snAgentSysParaConfigDescription 6-14
snAgentSysParaConfigEntry 6-14
snAgentSysParaConfigIndex 6-14
snAgentSysParaConfigMax 6-14
snAgentSysParaConfigMin 6-14
snAgentSysParaConfigTable 6-14
snAgentUserAccntEncryptCode 7-2
snAgentUserAccntEntry 7-2
snAgentUserAccntName 7-2
snAgentUserAccntPassword 7-2
snAgentUserAccntPrivilege 7-2
snAgentUserAccntRowStatus 7-2
snAgentUserAccntTable 7-2
snAgentUserMaxAccnt 7-1
snAgEraseNVRAM 6-2
snAgFlashImgVer 6-9
snAgGblBannerExec 6-28
snAgGblBannerIncoming 6-28
snAgGblBannerMotd 6-28
snAgGblBufferShortage 6-30
snAgGblCpuUtil1MinAvg 26-3
snAgGblCpuUtil1SecAvg 26-3
snAgGblCpuUtil5SecAvg 26-3
snAgGblCpuUtilCollect 26-2
snAgGblCpuUtilData 26-2
snAgGblCurrentSecurityLevel 7-4
snAgGblDataRetrieveMode 6-29
snAgGblDmaFailure 6-30
snAgGblDynMemFree 26-5
snAgGblDynMemTotal 26-4
snAgGblDynMemUtil 26-4
snAgGblEnableColdStartTrap 30-5
snAgGblEnableLinkDownTrap 30-6
snAgGblEnableLinkUpTrap 30-6
snAgGblEnableModuleInsertedTrap 30-6
snAgGblEnableModuleRemovedTrap 30-6
snAgGblEnableSLB 7-5
snAgGblEnableTelnetServer 7-6
snAgGblEnableWebMgmt 7-5
snAgGblExcessiveErrorWarning 6-30
snAgGblIfIpAddr 6-13
snAgGblIfIpMask 6-13
snAgGblLevelPasswordsMask 7-4
snAgGblPassword 7-3
snAgGblPasswordChangeMode 7-3
snAgGblQueueOverflow 6-29
snAgGblReadOnlyCommunity 7-4
snAgGblReadWriteCommunity 7-4
snAgGblResourceLowWarning 6-30
snAgGblSecurityLevelBinding 7-5
snAgGblSecurityLevelSet 7-3
snAgGblTelnetLoginTimeout 7-6
snAgGblTelnetPassword 7-6
snAgGblTelnetTimeout 7-5
snAgGblTrapMessage 30-2
snAgImgFname 6-4
snAgImgLoad 6-5
snAgImgLoadSPModuleNumber 6-8
snAgImgLoadSPModuleType 6-8
snAgImgVer 6-9
snAgReload 6-2
snAgSFlowSourceInterface 26-9
snAgSoftwareFeature 6-10
snAgStaticSysLogBufferCalTimeStamp 26-18
snAgStaticSysLogBufferCriticalLevel 26-18
snAgStaticSysLogBufferEntry 26-18
snAgStaticSysLogBufferIndex 26-18
snAgStaticSysLogBufferMessage 26-18
snAgStaticSysLogBufferTable 26-18
snAgStaticSysLogBufferTimeStamp 26-18
snAgSysLogBufferCalTimeStamp 26-17
snAgSysLogBufferCriticalLevel 26-17
snAgSysLogBufferEntry 26-17
snAgSysLogBufferIndex 26-17
snAgSysLogBufferMessage 26-17
snAgSysLogBufferTable 26-17
snAgSysLogBufferTimeStamp 26-17
snAgSysLogGblBufferSize 26-15
Index-8 © 2008 Foundry Networks, Inc. April 2008
snAgSysLogGblClear 26-15
snAgSysLogGblCriticalLevel 26-15
snAgSysLogGblDroppedCount 26-16
snAgSysLogGblEnable 26-15
snAgSysLogGblFacility 26-16
snAgSysLogGblFlushedCount 26-16
snAgSysLogGblLoggedCount 26-15
snAgSysLogGblOverrunCount 26-16
snAgSysLogServerEntry 26-19
snAgSysLogServerIP 26-19
snAgSysLogServerRowStatus 26-19
snAgSysLogServerTable 26-19
snAgSysLogServerUDPPort 26-19
snAgSystemDebug 26-30
snAgSystemDebugBMBuffer 26-30
snAgSystemDebugBMFreeBuffer 26-30
snAgSystemDebugBMFreeBufferMgmt 26-30
snAgSystemDebugCpuQueueRead 26-30
snAgSystemDebugDRAMBuffer 26-30
snAgSystemDebugDRAMGetError 26-30
snAgSystemDebugDRAMToBMCopyFail 26-31
snAgSystemDebugIpcGigLock 26-30
snAgSystemDebugTotalIn 26-30
snAgSystemDebugTotalOut 26-30
snAgSystemDRAM 26-5
snAgSystemDRAMForBGP 26-5
snAgSystemDRAMForOSPF 26-5
snAgSystemDRAMFree 26-5
snAgSystemDRAMTotal 26-5
snAgSystemDRAMUtil 26-5
snAgSystemLog 7-5
snAgTftpServerAddr 6-9
snAgTftpServerAddrType 6-8
snAgTftpServerIp 6-4
snAgTrapHoldTime 30-6
snAgTrpRcvrComm 30-3
snAgTrpRcvrCurEntry 30-2
snAgTrpRcvrEntry 30-3
snAgTrpRcvrIndex 30-3
snAgTrpRcvrIpAddr 30-3
snAgTrpRcvrStatus 30-3
snAgTrpRcvrTable 30-3
snAgTrpRcvrUDPPort 30-3
snAgWebMgmtServerTcpPort 7-2
snAgWriteNVRAM 6-3
snArpStatsInvalidDestination 26-9
snArpStatsInvalidSource 26-9
snArpStatsPendingDrop 26-8
snArpStatsRepliesSent 26-8
snArpStatsRequestReceived 26-8
snArpStatsRequestSent 26-8
snArpStatsTotalReceived 26-8
snAuthorizationCommand Methods 7-10
snAuthorizationCommandLevel 7-10
snAuthorizationExec 7-10
snBgp4AddrFilterAction 20-8
snBgp4AddrFilterDestIp 20-9
snBgp4AddrFilterDestMask 20-9
snBgp4AddrFilterEntry 20-8
snBgp4AddrFilterIndex 20-8
snBgp4AddrFilterRowStatus 20-9
snBgp4AddrFilterSourceIp 20-9
snBgp4AddrFilterSourceMask 20-9
snBgp4AddrFilterTable 20-8
snBgp4AggregateAddrEntry 20-9
snBgp4AggregateAddrIp 20-10
snBgp4AggregateAddrMap 20-10
snBgp4AggregateAddrMask 20-10
snBgp4AggregateAddrOption 20-10
snBgp4AggregateAddrRowStatus 20-10
snBgp4AggregateAddrTable 20-9
snBgp4AsPathFilterAction 20-13
snBgp4AsPathFilterEntry 20-12
snBgp4AsPathFilterIndex 20-12
snBgp4AsPathFilterRegExpression 20-13
snBgp4AsPathFilterRowStatus 20-13
snBgp4AsPathFilterTable 20-12
snBgp4AttributeAggregatorAs 20-11
snBgp4AttributeAsPathList 20-12
snBgp4AttributeAtomicAggregatePresent 20-11
snBgp4AttributeClusterList 20-12
snBgp4AttributeCommunityList 20-12
snBgp4AttributeEntry 20-11
snBgp4AttributeIndex 20-11
snBgp4AttributeLocalPreference 20-12
snBgp4AttributeMetric 20-11
April 2008 © 2008 Foundry Networks, Inc. Index-9
Foundry Management Information Base Reference
snBgp4AttributeNextHop 20-11
snBgp4AttributeOrigin 20-11
snBgp4AttributeOriginator 20-12
snBgp4AttributeRouterId 20-11
snBgp4AttributeTable 20-11
snBgp4ClearNeighborCmdElement 20-35
snBgp4ClearNeighborCmdEntry 20-35
snBgp4ClearNeighborCmdIp 20-35
snBgp4ClearNeighborCmdTable 20-35
snBgp4ClientToClientReflection 20-5
snBgp4ClusterId 20-5
snBgp4CommunityFilterAction 20-13
snBgp4CommunityFilterCommNum 20-14
snBgp4CommunityFilterEntry 20-13
snBgp4CommunityFilterIndex 20-13
snBgp4CommunityFilterInternet 20-14
snBgp4CommunityFilterLocalAs 20-14
snBgp4CommunityFilterNoAdvertise 20-14
snBgp4CommunityFilterNoExport 20-14
snBgp4CommunityFilterRowStatus 20-14
snBgp4CommunityFilterTable 20-13
snBgp4ExternalDistance 20-5
snBgp4GenAdminStat 20-3
snBgp4GenAdminStat 20-37
snBgp4GenAlwaysCompareMed 20-2
snBgp4GenAsPathInstalled 20-5
snBgp4GenAutoSummary 20-2
snBgp4GenConfedId 20-6
snBgp4GenConfedPeers 20-6
snBgp4GenDampenHalfLife 20-6
snBgp4GenDampening 20-6
snBgp4GenDampenMap 20-7
snBgp4GenDampenMaxSuppress 20-6
snBgp4GenDampenReuse 20-6
snBgp4GenDampenSuppress 20-6
snBgp4GenDefaultInfoOriginate 20-2
snBgp4GenDefaultLocalPreference 20-2
snBgp4GenDefaultMetric 20-3
snBgp4GenFastExternalFallover 20-2
snBgp4GenHoldTime 20-3
snBgp4GenKeepAliveTime 20-3
snBgp4GenLocalAs 20-37
snBgp4GenLocalAs 20-5
snBgp4GenMaxAddrFilters 20-4
snBgp4GenMaxAggregateAddresses 20-4
snBgp4GenMaxAsPathFilters 20-4
snBgp4GenMaxCommunityFilters 20-4
snBgp4GenMaxNeighbors 20-3
snBgp4GenMaxNetworks 20-4
snBgp4GenMaxPaths 20-6
snBgp4GenMaxRouteMapFilters 20-4
snBgp4GenMaxRoutes 20-4
snBgp4GenMinNeighbors 20-4
snBgp4GenMinRoutes 20-4
snBgp4GenNeighPrefixMinValue 20-4
snBgp4GenNextBootNeighbors 20-3
snBgp4GenNextBootRoutes 20-3
snBgp4GenOperNeighbors 20-4
snBgp4GenOperRoutes 20-5
snBgp4GenRouterId 20-3
snBgp4GenRoutesInstalled 20-5
snBgp4GenSynchronization 20-3
snBgp4GenTableMap 20-3
snBgp4GenTotalNeighbors 20-6
snBgp4InternalDistance 20-5
snBgp4LocalDistance 20-5
snBgp4NeighborSummaryEntry 20-33
snBgp4NeighborSummaryEntry 20-37
snBgp4NeighborSummaryIndex 20-34
snBgp4NeighborSummaryIndex 20-37
snBgp4NeighborSummaryIp 20-34
snBgp4NeighborSummaryIp 20-37
snBgp4NeighborSummaryRouteInstalled 20-34
snBgp4NeighborSummaryRouteInstalled 20-38
snBgp4NeighborSummaryRouteReceived 20-34
snBgp4NeighborSummaryRouteReceived 20-38
snBgp4NeighborSummaryState 20-34
snBgp4NeighborSummaryState 20-38
snBgp4NeighborSummaryStateChgTime 20-34
snBgp4NeighborSummaryStateChgTime 20-38
snBgp4NeighborSummaryTable 20-33
snBgp4NeighborSummaryTable 20-37
snBgp4NeighDistGroupAccessList 20-27
snBgp4NeighDistGroupDir 20-27
snBgp4NeighDistGroupEntry 20-27
snBgp4NeighDistGroupInFilterList 20-28
Index-10 © 2008 Foundry Networks, Inc. April 2008
snBgp4NeighDistGroupInIpAccessList 20-28
snBgp4NeighDistGroupInPrefixList 20-28
snBgp4NeighDistGroupNeighIp 20-27
snBgp4NeighDistGroupOutFilterList 20-28
snBgp4NeighDistGroupOutIpAccessList 20-28
snBgp4NeighDistGroupOutPrefixList 20-28
snBgp4NeighDistGroupRowStatus 20-28
snBgp4NeighDistGroupTable 20-27
snBgp4NeighFilterGroupAccessList 20-29
snBgp4NeighFilterGroupDir 20-29
snBgp4NeighFilterGroupEntry 20-29
snBgp4NeighFilterGroupInAsPathAccessList 20-30
snBgp4NeighFilterGroupInFilterList 20-29
snBgp4NeighFilterGroupNeighIp 20-29
snBgp4NeighFilterGroupOutAsPathAccessList 20-30
snBgp4NeighFilterGroupOutFilterList 20-30
snBgp4NeighFilterGroupRowStatus 20-29
snBgp4NeighFilterGroupTable 20-29
snBgp4NeighFilterGroupWeight 20-30
snBgp4NeighFilterGroupWeightAccessList 20-30
snBgp4NeighGenCfgAdvertlevel 20-24
snBgp4NeighGenCfgDefOriginate 20-24
snBgp4NeighGenCfgDefOrigMap 20-27
snBgp4NeighGenCfgDesc 20-27
snBgp4NeighGenCfgEbgpMultihop 20-24
snBgp4NeighGenCfgEbgpMultihopTtl 20-26
snBgp4NeighGenCfgEntry 20-24
snBgp4NeighGenCfgHoldTime 20-27
snBgp4NeighGenCfgKeepAliveTime 20-26
snBgp4NeighGenCfgMaxPrefix 20-24
snBgp4NeighGenCfgNeighIp 20-24
snBgp4NeighGenCfgNextHopSelf 20-25
snBgp4NeighGenCfgPass 20-27
snBgp4NeighGenCfgRemoteAs 20-25
snBgp4NeighGenCfgRemovePrivateAs 20-26
snBgp4NeighGenCfgRouteRefClient 20-26
snBgp4NeighGenCfgRowStatus 20-25
snBgp4NeighGenCfgSendComm 20-25
snBgp4NeighGenCfgShutdown 20-26
snBgp4NeighGenCfgTable 20-24
snBgp4NeighGenCfgUpdateSrcLpbIntf 20-26
snBgp4NeighGenCfgWeight 20-25
snBgp4NeighGenCfgWeightFilterList 20-25
snBgp4NeighOperStatusAdvertlevel 20-32
snBgp4NeighOperStatusBgpType 20-32
snBgp4NeighOperStatusEntry 20-31
snBgp4NeighOperStatusHoldTime 20-32
snBgp4NeighOperStatusIndex 20-31
snBgp4NeighOperStatusIp 20-31
snBgp4NeighOperStatusKeepAliveRxCounts 20-33
snBgp4NeighOperStatusKeepAliveTime 20-32
snBgp4NeighOperStatusKeepAliveTxCounts 20-32
snBgp4NeighOperStatusNotifRxCounts 20-33
snBgp4NeighOperStatusNotifTxCounts 20-33
snBgp4NeighOperStatusOpenRxCounts 20-33
snBgp4NeighOperStatusOpenTxCounts 20-33
snBgp4NeighOperStatusRemoteAs 20-31
snBgp4NeighOperStatusState 20-32
snBgp4NeighOperStatusTable 20-31
snBgp4NeighOperStatusUpdateRxCounts 20-33
snBgp4NeighOperStatusUpdateTxCounts 20-33
snBgp4NeighPrefixGroupDir 20-36
snBgp4NeighPrefixGroupEntry 20-35
snBgp4NeighPrefixGroupInAccessList 20-36
snBgp4NeighPrefixGroupNeighIp 20-35
snBgp4NeighPrefixGroupOutAccessList 20-36
snBgp4NeighPrefixGroupRowStatus 20-36
snBgp4NeighPrefixGroupTable 20-35
snBgp4NeighRouteMapDir 20-30
snBgp4NeighRouteMapEntry 20-30
snBgp4NeighRouteMapMapName 20-31
snBgp4NeighRouteMapNeighIp 20-30
snBgp4NeighRouteMapRowStatus 20-31
snBgp4NeighRouteMapTable 20-30
snBgp4NetworkBackdoor 20-7
snBgp4NetworkEntry 20-7
snBgp4NetworkIp 20-7
snBgp4NetworkRowStatus 20-8
snBgp4NetworkSubnetMask 20-7
snBgp4NetworkTable 20-7
snBgp4NetworkWeight 20-7
snBgp4NextBootMaxAttributes 20-5
snBgp4OperNumOfAttributes 20-5
snBgp4RedisEntry 20-20
April 2008 © 2008 Foundry Networks, Inc. Index-11
Foundry Management Information Base Reference
snBgp4RedisMatchExternal1 20-21
snBgp4RedisMatchExternal2 20-21
snBgp4RedisMatchInternal 20-21
snBgp4RedisMetric 20-21
snBgp4RedisProtocol 20-21
snBgp4RedisRouteMap 20-21
snBgp4RedisRowStatus 20-21
snBgp4RedisTable 20-20
snBgp4RedisWeight 20-21
snBgp4RouteMapFilterAction 20-15
snBgp4RouteMapFilterEntry 20-15
snBgp4RouteMapFilterMapName 20-15
snBgp4RouteMapFilterRowStatus 20-15
snBgp4RouteMapFilterSequenceNum 20-15
snBgp4RouteMapFilterTable 20-15
snBgp4RouteMapMatchAddressAccessList 20-17
snBgp4RouteMapMatchAddressFilter 20-16
snBgp4RouteMapMatchAddressPrefixList 20-17
snBgp4RouteMapMatchAsPathAccessList 20-17
snBgp4RouteMapMatchAsPathFilter 20-16
snBgp4RouteMapMatchCommunityFilter 20-16
snBgp4RouteMapMatchCommunityList 20-17
snBgp4RouteMapMatchEntry 20-16
snBgp4RouteMapMatchMapName 20-16
snBgp4RouteMapMatchMetric 20-16
snBgp4RouteMapMatchNextHopAccessList 20-17
snBgp4RouteMapMatchNextHopList 20-16
snBgp4RouteMapMatchNextHopPrefixList 20-18
snBgp4RouteMapMatchRouteType 20-17
snBgp4RouteMapMatchRowMask 20-17
snBgp4RouteMapMatchSequenceNum 20-16
snBgp4RouteMapMatchTable 20-16
snBgp4RouteMapMatchTagList 20-17
snBgp4RouteMapSetAsPathString 20-18
snBgp4RouteMapSetAsPathType 20-18
snBgp4RouteMapSetAutoTag 20-18
snBgp4RouteMapSetCommunityAdditive 20-19
snBgp4RouteMapSetCommunityNum 20-19
snBgp4RouteMapSetCommunityNums 20-20
snBgp4RouteMapSetCommunityType 20-19
snBgp4RouteMapSetDampenHalfLife 20-20
snBgp4RouteMapSetDampenMaxSuppress 20-20
snBgp4RouteMapSetDampenReuse 20-20
snBgp4RouteMapSetDampenSuppress 20-20
snBgp4RouteMapSetEntry 20-18
snBgp4RouteMapSetLocalPreference 20-19
snBgp4RouteMapSetMapName 20-18
snBgp4RouteMapSetMetric 20-19
snBgp4RouteMapSetNextHop 20-19
snBgp4RouteMapSetOrigin 20-19
snBgp4RouteMapSetRowMask 20-20
snBgp4RouteMapSetSequenceNum 20-18
snBgp4RouteMapSetTable 20-18
snBgp4RouteMapSetTag 20-19
snBgp4RouteMapSetWeight 20-19
snBgp4RouteOperStatusAsPathList 20-23
snBgp4RouteOperStatusCommunityList 20-23
snBgp4RouteOperStatusEntry 20-22
snBgp4RouteOperStatusIndex 20-22
snBgp4RouteOperStatusIp 20-22
snBgp4RouteOperStatusLocalPreference 20-22
snBgp4RouteOperStatusMetric 20-22
snBgp4RouteOperStatusNextHop 20-22
snBgp4RouteOperStatusOrigin 20-22
snBgp4RouteOperStatusRouteTag 20-23
snBgp4RouteOperStatusStatus 20-23
snBgp4RouteOperStatusSubnetMask 20-22
snBgp4RouteOperStatusTable 20-22
snBgp4RouteOperStatusWeight 20-22
snBI15000Router 4-3
snBI15000SI 4-3
snBI4000Router 4-2
snBI4000SI 4-2
snBI4000Switch 4-2
snBI8000Router 4-2
snBI8000SI 4-2
snBI8000Switch 4-2
snBigIron15000 4-3
snBigIronSuperX 4-20
snBigIronSuperXBaseL3Switch 4-20
snBigIronSuperXFamily 4-20
snBigIronSuperXRouter 4-20
snBigIronSuperXSwitch 4-20
snBIMG8Router 4-5
snBIMG8Switch 4-5
Index-12 © 2008 Foundry Networks, Inc. April 2008
snBIRX16Router 4-21
snBIRX16Switch 4-21
snBIRx-32 4-21
snBIRX4Router 4-21
snBIRX4Router 4-21
snBIRX4Switch 4-21
snBIRX8Switch 4-21
snCAMIpStatEntry 26-20
snCAMIpStatFreeEntries 26-20
snCAMIpStatIfIndex 26-20
snCAMIpStatLevel 26-20
snCAMIpStatTable 26-19
snCAMIpStatTotalEntries 26-20
snCamProfile 26-24
snCamStatAddIPHostCount 26-23
snCamStatAddIPMCastCount 26-23
snCamStatAddIPRouteCount 26-23
snCamStatAddIPSessionCount 26-23
snCamStatAddIPXCount 26-23
snCamStatAddL2SessionCount 26-23
snCamStatAddMACCount 26-22
snCamStatAddVLANCount 26-22
snCamStatDeleteDMACamCount 26-23
snCamStatFreeL2Entries 26-21
snCamStatFreeL2LowestSection 26-21
snCamStatFreePool0Entries 26-21
snCamStatFreePool1Entries 26-21
snCamStatFreePool2Entries 26-21
snCamStatFreePool3Entries 26-21
snCamStatHostLookupCount 26-21
snCamStatIPMCastFailCount 26-22
snCamStatIPRouteFailCount 26-22
snCamStatIPSessionFailCount 26-22
snCamStatL2SessionFailCount 26-22
snCamStatLevel1 26-22
snCamStatLevel2 26-22
snCamStatLevel3 26-22
snCamStatMacFailCount 26-22
snCamStatRouteLookupCount 26-22
snCAMStatTable 26-21
snCamUsageL2Entry 26-26
snCamUsageL2Free 26-26
snCamUsageL2Processor 26-26
snCamUsageL2Size 26-26
snCamUsageL2Slot 26-26
snCamUsageL2Table 26-26
snCamUsageL2Type 26-26
snCamUsageL2UsedPercent 26-26
snCamUsageL3Entry 26-24
snCamUsageL3Free 26-25
snCamUsageL3Processor 26-25
snCamUsageL3Size 26-25
snCamUsageL3Slot 26-25
snCamUsageL3Supernet 26-25
snCamUsageL3Table 26-24
snCamUsageL3Type 26-25
snCamUsageL3UsedPercent 26-25
snCamUsageOtherEntry 26-28
snCamUsageOtherFree 26-28
snCamUsageOtherProcessor 26-28
snCamUsageOtherSize 26-28
snCamUsageOtherSlot 26-28
snCamUsageOtherTable 26-28
snCamUsageOtherType 26-28
snCamUsageOtherUsedPercent 26-28
snCamUsageSessionEntry 26-27
snCamUsageSessionFree 26-27
snCamUsageSessionSize 26-27
snCamUsageSessionSlot 26-27
snCamUsageSessionTable 26-27
snCamUsageSessionType 26-27
snCamUsageSessionUsedPercent 26-27
snChasActualTemperature 5-26
snchasarchitectureType 5-27
snChasEnableFanTrap 30-5
snChasEnablePwrSupplyTrap 30-5
snChasEnableTempWarnTrap 30-6
snChasExpBrdDescription 5-21
snChasExpBrdId 5-21
snChasExpPortTotal 5-21
snChasFanDescription 5-25
snChasFanEntry 5-25
snChasFanIndex 5-25
snChasFanOperStatus 5-26
snChasFanStatus 5-2
snChasFanTable 5-25
April 2008 © 2008 Foundry Networks, Inc. Index-13
Foundry Management Information Base Reference
snChasFlashCard 5-27
snChasFlashCardLeds 5-27
snChasIdNumber 5-6
snChasMainBrdDescription 5-21
snChasMainPortTotal 5-21
snChasMediaLeds 5-22
snchasnumslots 5-27
snchasProductType 5-28
snChasPwrSupplyDescription 5-25
snChasPwrSupplyEntry 5-25
snChasPwrSupplyIndex 5-25
snChasPwrSupplyOperStatus 5-25
snChasPwrSupplyTable 5-25
snChasSerNum 5-24
snChasShutdownTemperature 5-26
snChasSpeedLeds 5-23
snChasStatusLeds 5-22
snChasTrafficLeds 5-22
snChasType 5-24
snChasWarningTemperature 5-26
snCpuProcess15MinUtil 26-29
snCpuProcess1MinUtil 26-29
snCpuProcess5MinUtil 26-29
snCpuProcess5SecUtil 26-29
snCpuProcessEntry 26-29
snCpuProcessName 26-29
snCpuProcessRuntime 26-29
snCpuProcessTable 26-29
snDhcpGatewayListAddrList 6-22
snDhcpGatewayListEntry 6-22
snDhcpGatewayListId 6-22
snDhcpGatewayListRowStatus 6-23
snDhcpGatewayListTable 6-22
snDnsDomainName 6-20
snDnsGatewayIpAddrList 6-20
snDosAttackICMPBlockCount 7-20
snDosAttackICMPDropCount 7-20
snDosAttackPort 7-21
snDosAttackPortEntry 7-21
snDosAttackPortICMPBlockCount 7-21
snDosAttackPortICMPDropCount 7-21
snDosAttackPortSYNBlockCount 7-20
snDosAttackPortSYNBlockCount 7-21
snDosAttackPortSYNDropCount 7-21
snDosAttackPortTable 7-21
snDosAttackSYNBlockCount 7-20
snDosAttackSYNDropCount 7-20
snDvmrpDefaultRoute 14-14
snDvmrpEnable 14-13
snDvmrpGenerationId 14-13
snDvmrpGraftRetransmitTime 14-14
snDvmrpNeighborAddress 14-17
snDvmrpNeighborCapabilities 14-17
snDvmrpNeighborEntry 14-16
snDvmrpNeighborEntryIndex 14-17
snDvmrpNeighborExpiryTime 14-17
snDvmrpNeighborGenerationId 14-17
snDvmrpNeighborMajorVersion 14-17
snDvmrpNeighborMinorVersion 14-17
snDvmrpNeighborRouterTimeout 14-14
snDvmrpNeighborTable 14-16
snDvmrpNeighborUpTime 14-17
snDvmrpNeighborVifIndex 14-17
snDvmrpProbeInterval 14-13
snDvmrpPruneAge 14-14
snDvmrpReportInterval 14-13
snDvmrpRouteDiscardTime 14-14
snDvmrpRouteEntry 14-18
snDvmrpRouteEntryIndex 14-18
snDvmrpRouteExpireTime 14-14
snDvmrpRouteExpiryTime 14-18
snDvmrpRouteMetric 14-18
snDvmrpRouteNextHopEntry 14-19
snDvmrpRouteNextHopSource 14-19
snDvmrpRouteNextHopSourceMask 14-19
snDvmrpRouteNextHopTable 14-19
snDvmrpRouteNextHopType 14-19
snDvmrpRouteNextHopVifIndex 14-19
snDvmrpRouteSource 14-18
snDvmrpRouteSourceMask 14-18
snDvmrpRouteTable 14-18
snDvmrpRouteUpstreamNeighbor 14-18
snDvmrpRouteVifIndex 14-18
snDvmrpTriggerInterval 14-14
snDvmrpVersion 14-13
snDvmrpVIfStatDiscardGraftAckPkts 14-21
Index-14 © 2008 Foundry Networks, Inc. April 2008
snDvmrpVIfStatDiscardGraftPkts 14-21
snDvmrpVIfStatDiscardProbePkts 14-20
snDvmrpVIfStatDiscardPrunePkts 14-21
snDvmrpVIfStatDiscardRtUpdatePkts 14-20
snDvmrpVIfStatEntry 14-19
snDvmrpVIfStatInGraftAckPkts 14-21
snDvmrpVIfStatInGraftPkts 14-20
snDvmrpVIfStatInOctets 14-20
snDvmrpVIfStatInPkts 14-19
snDvmrpVIfStatInProbePkts 14-20
snDvmrpVIfStatInPrunePkts 14-21
snDvmrpVIfStatInRtUpdatePkts 14-20
snDvmrpVIfStatOutGraftAckPkts 14-21
snDvmrpVIfStatOutGraftPkts 14-20
snDvmrpVIfStatOutOctets 14-20
snDvmrpVIfStatOutPkts 14-20
snDvmrpVIfStatOutProbePkts 14-20
snDvmrpVIfStatOutPrunePkts 14-21
snDvmrpVIfStatOutRtUpdatePkts 14-20
snDvmrpVIfStatTable 14-19
snDvmrpVIfStatVifIndex 14-19
snDvmrpVInterfaceAdvertiseLocal 14-16
snDvmrpVInterfaceEncapsulation 14-16
snDvmrpVInterfaceEntry 14-15
snDvmrpVInterfaceLocalAddress 14-15
snDvmrpVInterfaceMetric 14-15
snDvmrpVInterfaceOperState 14-15
snDvmrpVInterfaceRemoteAddress 14-15
snDvmrpVInterfaceRemoteSubnetMask 14-15
snDvmrpVInterfaceStatus 14-16
snDvmrpVInterfaceTable 14-15
snDvmrpVInterfaceTtlThreshold 14-16
snDvmrpVInterfaceType 14-15
snDvmrpVInterfaceVifIndex 14-15
snFastIronSuperX1600BaseL3Switch 4-18
snFastIronSuperX1600PremBaseL3Switch 4-18
snFastIronSuperX1600PremRouter 4-18
snFastIronSuperX1600PremSwitch 4-18
snFastIronSuperX1600Router 4-18
snFastIronSuperX1600Switch 4-18
snFastIronSuperX1600V6BaseL3Switch 4-20
snFastIronSuperX1600V6PremBaseL3Switch 4-20
snFastIronSuperX1600V6PremSwitch 4-20
snFastIronSuperX1600V6Router 4-20
snFastIronSuperX1600V6Switch 4-19
snFastIronSuperX800BaseL3Switch 4-18
snFastIronSuperX800PremBaseL3Switch 4-18
snFastIronSuperX800PremRouter 4-18
snFastIronSuperX800PremSwitch 4-18
snFastIronSuperX800Router 4-18
snFastIronSuperX800Switch 4-18
snFastIronSuperX800V6BaseL3Switch 4-19
snFastIronSuperX800V6PremBaseL3Switch 4-19
snFastIronSuperX800V6PremSwitch 4-19
snFastIronSuperX800V6Router 4-19
snFastIronSuperX800V6Switch 4-19
snFastIronSuperXBaseL3Switch 4-17
snFastIronSuperXPremBaseL3Switch 4-18
snFastIronSuperXPremRouter 4-18
snFastIronSuperXPremSwitch 4-17
snFastIronSuperXRouter 4-17
snFastIronSuperXSwitch 4-17
snFastIronSuperXV6BaseL3Switch 4-19
snFastIronSuperXV6PremBaseL3Switch 4-19
snFastIronSuperXV6PremSwitch 4-19
snFastIronSuperXV6Router 4-19
snFastIronSuperXV6Switch 4-18
snFdbEntry 12-4
snFdbRowStatus 12-6
snFdbStationAddr 12-5
snFdbStationEntrySize 6-18
snFdbStationIfindex 12-6
snFdbStationIndex 12-5
snFdbStationPort 12-5
snFdbStationQos 12-5
snFdbStationType 12-5
snFdbTable 12-4
snFdbTableCurEntry 6-16
snFdbTableStationFlush 6-16
snFdbVLanId 12-5
snFdpCacheAddress 6-32
snFdpCacheAddressType 6-32
snFdpCacheCapabilities 6-33
snFdpCachedAddrDeviceAddrEntryIndex 6-34
snFdpCachedAddrDeviceIndex 6-34
April 2008 © 2008 Foundry Networks, Inc. Index-15
Foundry Management Information Base Reference
snFdpCachedAddressEntry 6-34
snFdpCachedAddressTable 6-34
snFdpCachedAddrIfIndex 6-34
snFdpCachedAddrType 6-34
snFdpCachedAddrValue 6-34
snFdpCacheDefaultTrafficeVlanIdForDualMode 6-33
snFdpCacheDeviceId 6-32
snFdpCacheDeviceIndex 6-32
snFdpCacheDevicePort 6-33
snFdpCacheDevicePortVlanMask 6-33
snFdpCacheDeviceTagType 6-33
snFdpCacheEntry 6-32
snFdpCacheIfIndex 6-32
snFdpCacheIsAggregateVlan 6-33
snFdpCachePlatform 6-33
snFdpCachePortTagMode 6-33
snFdpCacheTable 6-32
snFdpCacheVendorId 6-33
snFdpCacheVersion 6-32
snFdpGlobalCdpRun 6-31
snFdpGlobalHoldTime 6-31
snFdpGlobalMessageInterval 6-30
snFdpGlobalRun 6-30
snFdpInterfaceCdpEnable 6-31
snFdpInterfaceEnable 6-31
snFdpInterfaceIfIndex 6-31
snFdpInterfaceTable 6-31
snFES12GCFRouter 4-4
snFES12GCFSwitch 4-4
snFES2402POERouter 4-4
snFES2402POESwitch 4-4
snFES2402Router 4-4
snFES2402Switch 4-4
snFES4802POERouter 4-5
snFES4802POESwitch 4-5
snFES4802Router 4-4
snFES4802Switch 4-4
snFES9604Router 4-4
snFES9604Switch 4-4
snFESX424FiberPlus1XGPremRouter 4-7
snFESX424FiberPlus1XGPremSwitch 4-7
snFESX424FiberPlus1XGRouter 4-7
snFESX424FiberPlus1XGSwitch 4-7
snFESX424FiberPlus2XGPremRouter 4-7
snFESX424FiberPlus2XGPremSwitch 4-7
snFESX424FiberPlus2XGRouter 4-7
snFESX424FiberPlus2XGSwitch 4-7
snFESX424FiberPremRouter 4-7
snFESX424FiberPremSwitch 4-6
snFESX424FiberRouter 4-6
snFESX424FiberSwitch 4-6
snFESX424Plus1XGPremRouter 4-5
snFESX424Plus1XGPremSwitch 4-5
snFESX424Plus1XGRouter 4-5
snFESX424Plus1XGSwitch 4-5
snFESX424Plus2XGPremRouter 4-6
snFESX424Plus2XGPremSwitch 4-6
snFESX424Plus2XGRouter 4-5
snFESX424Plus2XGSwitch 4-5
snFESX424POEPlus1XGPremRouter 4-8
snFESX424POEPlus1XGPremSwitch 4-8
snFESX424POEPlus1XGRouter 4-8
snFESX424POEPlus1XGSwitch 4-8
snFESX424POEPlus2XGPremRouter 4-9
snFESX424POEPlus2XGPremSwitch 4-9
snFESX424POEPlus2XGRouter 4-9
snFESX424POEPlus2XGSwitch 4-9
snFESX424POEPrem6Router 4-8
snFESX424POEPremRouter 4-8
snFESX424POEPremSwitch 4-8
snFESX424POESwitch 4-8
snFESX424PremRouter 4-5
snFESX424PremSwitch 4-5
snFESX424Router 4-5
snFESX424Switch 4-5
snFESX448FiberPlus1XGPremRouter 4-8
snFESX448FiberPlus1XGPremSwitch 4-8
snFESX448FiberPlus1XGRouter 4-7
snFESX448FiberPlus1XGSwitch 4-7
snFESX448FiberPlus2XGPremRouter 4-8
snFESX448FiberPlus2XGPremSwitch 4-8
snFESX448FiberPlus2XGRouter 4-8
snFESX448FiberPlus2XGSwitch 4-8
snFESX448FiberPremRouter 4-7
snFESX448FiberPremSwitch 4-7
Index-16 © 2008 Foundry Networks, Inc. April 2008
snFESX448FiberRouter 4-7
snFESX448FiberSwitch 4-7
snFESX448Plus1XGPremRouter 4-6
snFESX448Plus1XGPremSwitch 4-6
snFESX448Plus1XGRouter 4-6
snFESX448Plus1XGSwitch 4-6
snFESX448Plus2XGPremRouter 4-6
snFESX448Plus2XGPremSwitch 4-6
snFESX448Plus2XGRouter 4-6
snFESX448Plus2XGSwitch 4-6
snFESX448PremRouter 4-6
snFESX448PremSwitch 4-6
snFESX448Router 4-6
snFESX448Switch 4-6
snFESX624EFiberPlus1XGPrem6Router 4-15
snFESX624EFiberPlus1XGPremRouter 4-15
snFESX624EFiberPlus1XGPremSwitch 4-15
snFESX624EFiberPlus1XGRouter 4-15
snFESX624EFiberPlus1XGSwitch 4-15
snFESX624EFiberPlus2XGPrem6Router 4-16
snFESX624EFiberPlus2XGPremRouter 4-15
snFESX624EFiberPlus2XGPremSwitch 4-15
snFESX624EFiberPlus2XGRouter 4-15
snFESX624EFiberPlus2XGSwitch 4-15
snFESX624EFiberPrem6Router 4-15
snFESX624EFiberPremRouter 4-15
snFESX624EFiberPremSwitch 4-15
snFESX624EFiberRouter 4-15
snFESX624EFiberSwitch 4-15
snFESX624EPlus1XGPrem6Router 4-14
snFESX624EPlus1XGPremRouter 4-14
snFESX624EPlus1XGPremSwitch 4-14
snFESX624EPlus1XGRouter 4-14
snFESX624EPlus1XGSwitch 4-14
snFESX624EPlus2XGPrem6Router 4-14
snFESX624EPlus2XGPremRouter 4-14
snFESX624EPlus2XGPremSwitch 4-14
snFESX624EPlus2XGRouter 4-14
snFESX624EPlus2XGSwitch 4-14
snFESX624EPrem6Router 4-14
snFESX624EPremRouter 4-14
snFESX624EPremSwitch 4-14
snFESX624ERouter 4-14
snFESX624ESwitch 4-14
snFESX624FiberPlus1XGPrem6Router 4-11
snFESX624FiberPlus1XGPremRouter 4-11
snFESX624FiberPlus1XGPremSwitch 4-11
snFESX624FiberPlus1XGRouter 4-11
snFESX624FiberPlus1XGSwitch 4-11
snFESX624FiberPlus2XGPrem6Router 4-11
snFESX624FiberPlus2XGPremRouter 4-11
snFESX624FiberPlus2XGPremSwitch 4-11
snFESX624FiberPlus2XGRouter 4-11
snFESX624FiberPlus2XGSwitch 4-11
snFESX624FiberPrem6Router 4-11
snFESX624FiberPremRouter 4-11
snFESX624FiberPremSwitch 4-11
snFESX624FiberRouter 4-11
snFESX624FiberSwitch 4-11
snFESX624Plus1XGPrem6Router 4-9
snFESX624Plus1XGPremRouter 4-9
snFESX624Plus1XGPremSwitch 4-9
snFESX624Plus1XGRouter 4-9
snFESX624Plus1XGSwitch 4-9
snFESX624Plus2XGPrem6Router 4-10
snFESX624Plus2XGPremRouter 4-10
snFESX624Plus2XGPremSwitch 4-10
snFESX624Plus2XGRouter 4-9
snFESX624Plus2XGSwitch 4-9
snFESX624POEPlus1XGPrem6Router 4-13
snFESX624POEPlus1XGPremRouter 4-13
snFESX624POEPlus1XGPremSwitch 4-13
snFESX624POEPlus1XGRouter 4-13
snFESX624POEPlus1XGSwitch 4-13
snFESX624POEPlus2XGPrem6Router 4-13
snFESX624POEPlus2XGPremRouter 4-13
snFESX624POEPlus2XGPremSwitch 4-13
snFESX624POEPlus2XGRouter 4-13
snFESX624POEPlus2XGSwitch 4-13
snFESX624POEPrem6Router 4-13
snFESX624POEPremRouter 4-13
snFESX624POEPremSwitch 4-13
snFESX624POESwitch 4-13
snFESX624Prem6Router 4-9
snFESX624PremRouter 4-9
snFESX624PremSwitch 4-9
April 2008 © 2008 Foundry Networks, Inc. Index-17
Foundry Management Information Base Reference
snFESX624Router 4-9
snFESX624Switch 4-9
snFESX648EPlus1XGPrem6Router 4-16
snFESX648EPlus1XGPremRouter 4-16
snFESX648EPlus1XGPremSwitch 4-16
snFESX648EPlus1XGRouter 4-16
snFESX648EPlus1XGSwitch 4-16
snFESX648EPlus2XGPrem6Router 4-17
snFESX648EPlus2XGPremRouter 4-16
snFESX648EPlus2XGPremSwitch 4-16
snFESX648EPlus2XGRouter 4-16
snFESX648EPlus2XGSwitch 4-16
snFESX648EPrem6Router 4-16
snFESX648EPremRouter 4-16
snFESX648EPremSwitch 4-16
snFESX648ERouter 4-16
snFESX648ESwitch 4-16
snFESX648FiberPlus1XGPrem6Router 4-12
snFESX648FiberPlus1XGPremRouter 4-12
snFESX648FiberPlus1XGPremSwitch 4-12
snFESX648FiberPlus1XGRouter 4-12
snFESX648FiberPlus1XGSwitch 4-12
snFESX648FiberPlus2XGPrem6Router 4-12
snFESX648FiberPlus2XGPremRouter 4-12
snFESX648FiberPlus2XGPremSwitch 4-12
snFESX648FiberPlus2XGRouter 4-12
snFESX648FiberPlus2XGSwitch 4-12
snFESX648FiberPrem6Router 4-12
snFESX648FiberPremRouter 4-12
snFESX648FiberPremSwitch 4-12
snFESX648FiberRouter 4-12
snFESX648FiberSwitch 4-12
snFESX648Plus1XGPrem6Router 4-10
snFESX648Plus1XGPremRouter 4-10
snFESX648Plus1XGPremSwitch 4-10
snFESX648Plus1XGRouter 4-10
snFESX648Plus1XGSwitch 4-10
snFESX648Plus2XGPrem6Router 4-10
snFESX648Plus2XGPremRouter 4-10
snFESX648Plus2XGPremSwitch 4-10
snFESX648Plus2XGRouter 4-10
snFESX648Plus2XGSwitch 4-10
snFESX648Prem6Router 4-10
snFESX648PremRouter 4-10
snFESX648PremSwitch 4-10
snFGS624Family 4-24
snFGS624P 4-24
snFGS624PBaseFamily 4-24
snFGS624PPOE 4-24
snFGS624PPOEFamily 4-24
snFGS624PPOERouter 4-24
snFGS624PPOESwitch 4-24
snFGS624PRouter 4-24
snFGS624PSwitch 4-24
snFGS624XGP 4-24
snFGS624XGP 4-24
snFGS624XGPFamily 4-24
snFGS624XGPPOE 4-25
snFGS624XGPPOEFamily 4-25
snFGS624XGPPOERouter 4-25
snFGS624XGPPOESwitch 4-25
snFGS624XGPRouter 4-24
snFGS648Family 4-25
snFGS648P 4-25
snFGS648PBaseFamily 4-25
snFGS648PPOE 4-25
snFGS648PPOERouter 4-25
snFGS648PPOESwitch 4-25
snFGS648PRouter 4-25
snFGS648PSwitch 4-25
snFGSFamily 4-24
snFI1500Router 4-4
snFI1500Switch 4-4
snFI2GCRouter 4-2
snFI2GCSwitch 4-2
snFI2PlusGCRouter 4-3
snFI2PlusGCSwitch 4-2
snFI2PlusRouter 4-2
snFI2PlusSwitch 4-2
snFI2Router 4-2
snFI2Switch 4-2
snFI3GCRouter 4-3
snFI3GCSwitch 4-3
snFI3Router 4-3
snFI3Switch 4-3
snFI400Router 4-4
Index-18 © 2008 Foundry Networks, Inc. April 2008
snFI400Switch 4-4
snFI800Router 4-4
snFI800Switch 4-4
snFIBBSwitch 4-1
snFIWGSwitch 4-1
snFLS624 4-25
snFLS624BaseFamily 4-25
snFLS624Family 4-25
snFLSFamily 4-25
snFSG648PPOEFamily 4-25
snFsrpGroupOperMode 16-2
snFsrpIfChassisTrackPortMask 16-4
snFsrpIfEntry 16-2
snFsrpIfIpAddress 16-3
snFsrpIfKeepAliveTime 16-4
snFsrpIfOtherRtrIpAddr 16-3
snFsrpIfPort 16-3
snFsrpIfPreferLevel 16-3
snFsrpIfRouterDeadTime 16-4
snFsrpIfRowStatus 16-3
snFsrpIfState 16-4
snFsrpIfStateChangeTrap 30-7
snFsrpIfTable 16-2
snFsrpIfTrackPortList 16-4
snFsrpIfTrackPortMask 16-3
snFsrpIfVirRtrIpAddr 16-3
snFWSX424Plus1XGRouter 4-17
snFWSX424Plus1XGSwitch 4-17
snFWSX424Plus2XGRouter 4-17
snFWSX424Plus2XGSwitch 4-17
snFWSX424Router 4-17
snFWSX424Switch 4-17
snFWSX448Plus1XGRouter 4-17
snFWSX448Plus1XGSwitch 4-17
snFWSX448Plus2XGRouter 4-17
snFWSX448Plus2XGSwitch 4-17
snFWSX448Router 4-17
snFWSX448Switch 4-17
snGblRtRouteOnly 18-1
snIfIndexLookupEntry 11-14
snIfIndexLookupIfIndex 11-14
snIfIndexLookupInterfaceId 11-14
snIfIndexLookupTable 11-14
snIfOpticalMonitoringInfoEntry 26-31
snIfOpticalMonitoringInfoEntry 5-28
snIfOpticalMonitoringInfoTable 26-31
snIfOpticalMonitoringInfoTable 5-28
snIfOpticalMonitoringRxPower 26-31
snIfOpticalMonitoringTemperature 26-31
snIfOpticalMonitoringTemperature 5-28
snIfOpticalMonitoringTxBiasCurrent 26-31
snIfOpticalMonitoringTxBiasCurrent 5-29
snIfOpticalMonitoringTxPower 26-31
snIfOpticalMonitoringTxPower 5-28
snIfRstpConfigBPDUReceived 11-32
snIfRstpConfigBPDUTransmitted 11-32
snIfRstpTCNBPDUReceived 11-32
snIfRstpTCNBPDUTransmitted 11-32
snIfStpBPDUReceived 11-31
snIfStpBPDUTransmitted 11-31
snIfStpCfgPathCost 11-29
snIfStpEntry 11-28
snIfStpOperState 11-29
snIfStpPathCost 11-29
snIfStpPortAdminEdgePort 11-31
snIfStpPortAdminPointToPoint 11-31
snIfStpPortAdminRstp 11-31
snIfStpPortDesignatedBridge 11-30
snIfStpPortDesignatedCost 11-30
snIfStpPortDesignatedPort 11-31
snIfStpPortDesignatedRoot 11-30
snIfStpPortNum 11-28
snIfStpPortPriority 11-28
snIfStpPortProtocolMigration 11-31
snIfStpPortRole 11-31
snIfStpPortState 11-30
snIfStpTable 11-28
snIfStpVLanId 11-28
snIgmpGroupMembershipTime 14-2
snIgmpIfEntry 14-2
snIgmpIfEntryIndex 14-2
snIgmpIfGroupAddress 14-3
snIgmpIfGroupAge 14-3
snIgmpIfPortNumber 14-2
snIgmpIfTable 14-2
snIgmpQueryInterval 14-2
April 2008 © 2008 Foundry Networks, Inc. Index-19
Foundry Management Information Base Reference
snIgmpStaticGroupAddress 14-3
snIgmpStaticGroupEntry 14-3
snIgmpStaticGroupIfIndex 14-3
snIgmpStaticGroupPortList 14-4
snIgmpStaticGroupRowStatus 14-4
snIgmpStaticGroupTable 14-3
snIMRFamily 4-21
snInterfaceLookupEntry 11-13
snInterfaceLookupIfIndex 11-13
snInterfaceLookupInterfaceId 11-13
snInterfaceLookupTable 11-13
snIpAsPathAccessListStringAction 18-22
snIpAsPathAccessListStringEntry 18-22
snIpAsPathAccessListStringName 18-22
snIpAsPathAccessListStringRegExpression 18-22
snIpAsPathAccessListStringRowStatus 18-23
snIpAsPathAccessListStringSequence 18-22
snIpAsPathAccessListStringTable 18-22
snIpCommunityListAction 7-7
snIpCommunityListCommNum 7-7
snIpCommunityListEntry 7-7
snIpCommunityListIndex 7-7
snIpCommunityListInternet 7-7
snIpCommunityListLocalAs 7-8
snIpCommunityListNoAdvertise 7-7
snIpCommunityListNoExport 7-7
snIpCommunityListRowStatus 7-8
snIpCommunityListSequence 7-7
snIpCommunityListStringAction 7-9
snIpCommunityListStringCommNum 7-9
snIpCommunityListStringEntry 7-8
snIpCommunityListStringInternet 7-9
snIpCommunityListStringLocalAs 7-9
snIpCommunityListStringName 7-8
snIpCommunityListStringNoAdvertise 7-9
snIpCommunityListStringNoExport 7-9
snIpCommunityListStringRowStatus 7-9
snIpCommunityListStringSequence 7-8
snIpCommunityListStringTable 7-8
snIpCommunityListTable 7-7
snIpPrefixListAction 18-20
snIpPrefixListAddr 18-20
snIpPrefixListDesc 18-20
snIpPrefixListEntry 18-19
snIpPrefixListGeValue 18-20
snIpPrefixListLength 18-21
snIpPrefixListLeValue 18-20
snIpPrefixListMask 18-20
snIpPrefixListName 18-20
snIpPrefixListRowStatus 18-21
snIpPrefixListSequence 18-20
snIpPrefixListTable 18-19
snIpxCacheEncap 21-4
snIpxCacheEntry 21-4
snIpxCacheIf 21-4
snIpxCacheIndex 21-4
snIpxCacheNetNum 21-4
snIpxCacheNode 21-4
snIpxCacheOutFilter 21-4
snIpxCachePort 21-4
snIpxCacheTable 21-4
snIpxClearCache 21-2
snIpxClearRoute 21-2
snIpxClearTrafficCnts 21-2
snIpxDestHopCnts 21-5
snIpxDestNetNum 21-5
snIpxDestPort 21-5
snIpxFwdFilterAction 21-7
snIpxFwdFilterDestNet 21-7
snIpxFwdFilterDestNode 21-7
snIpxFwdFilterEntry 21-6
snIpxFwdFilterId 21-6
snIpxFwdFilterRowStatus 21-7
snIpxFwdFilterSocket 21-7
snIpxFwdFilterSrcNet 21-7
snIpxFwdFilterSrcNode 21-7
snIpxFwdFilterTable 21-6
snIpxFwdPktsCnt 21-2
snIpxFwdRouterNode 21-5
snIpxIfFwdAccessDir 21-10
snIpxIfFwdAccessEntry 21-10
snIpxIfFwdAccessFilterList 21-10
snIpxIfFwdAccessPort 21-10
snIpxIfFwdAccessRowStatus 21-10
snIpxIfFwdAccessTable 21-10
snIpxIfRipAccessDir 21-11
Index-20 © 2008 Foundry Networks, Inc. April 2008
snIpxIfRipAccessEntry 21-10
snIpxIfRipAccessFilterList 21-11
snIpxIfRipAccessPort 21-11
snIpxIfRipAccessRowStatus 21-11
snIpxIfRipAccessTable 21-10
snIpxIfSapAccessDir 21-11
snIpxIfSapAccessEntry 21-11
snIpxIfSapAccessFilterList 21-11
snIpxIfSapAccessPort 21-11
snIpxIfSapAccessRowStatus 21-12
snIpxIfSapAccessTable 21-11
snIpxNetBiosFilterMode 21-1
snIpxPortAddrEncap 21-12
snIpxPortAddrEntry 21-12
snIpxPortAddrNetBiosFilterMode 21-13
snIpxPortAddrNetNum 21-12
snIpxPortAddrPort 21-12
snIpxPortAddrRowStatus 21-13
snIpxPortAddrTable 21-12
snIpxPortCountersEntry 21-13
snIpxPortCountersFwdPktsCnt 21-13
snIpxPortCountersPort 21-13
snIpxPortCountersRcvDropPktsCnt 21-14
snIpxPortCountersRcvFiltPktsCnt 21-14
snIpxPortCountersRcvPktsCnt 21-13
snIpxPortCountersTable 21-13
snIpxPortCountersTxDropPktsCnt 21-14
snIpxPortCountersTxFiltPktsCnt 21-14
snIpxPortCountersTxPktsCnt 21-13
snIpxRcvDropPktsCnt 21-2
snIpxRcvFiltPktsCnt 21-2
snIpxRcvPktsCnt 21-2
snIpxRipFilterAction 21-8
snIpxRipFilterEntry 21-8
snIpxRipFilterId 21-8
snIpxRipFilterMask 21-8
snIpxRipFilterNet 21-8
snIpxRipFilterRowStatus 21-8
snIpxRipFilterTable 21-8
snIpxRipFiltOnAllPort 21-3
snIpxRipGblFiltList 21-2
snIpxRouteEntry 21-5
snIpxRouteIndex 21-5
snIpxRouteMetric 21-5
snIpxRouteTable 21-5
snIpxRoutingMode 21-1
snIpxSapFilterAction 21-9
snIpxSapFilterEntry 21-9
snIpxSapFilterId 21-9
snIpxSapFilterName 21-9
snIpxSapFilterRowStatus 21-9
snIpxSapFilterTable 21-9
snIpxSapFilterType 21-9
snIpxSapFiltOnAllPort 21-3
snIpxSapGblFiltList 21-3
snIpxServerEntry 21-5
snIpxServerHopCnts 21-6
snIpxServerIndex 21-6
snIpxServerName 21-6
snIpxServerNetNum 21-6
snIpxServerNode 21-6
snIpxServerSocket 21-6
snIpxServerTable 21-5
snIpxServerType 21-6
snIpxTxDropPktsCnt 21-3
snIpxTxFiltPktsCnt 21-3
snIpxTxPktsCnt 21-2
snL4Active 27-11
snL4Backup 27-11
snL4BackupInterface 27-11
snL4BackupMacAddr 27-11
snL4BackupState 27-12
snL4BecomeActive 27-11
snL4BecomeStandBy 27-11
snL4BindEntry 27-40
snL4BindIndex 27-40
snL4BindingRealServerIP 27-41
snL4BindingRealServerName 27-41
snL4BindingRealServerPort 27-41
snL4BindingRowStatus 27-42
snL4BindingVirtualServerIP 27-41
snL4BindingVirtualServerName 27-42
snL4BindingVirtualServerPort 27-42
snL4BindRealPortNumber 27-41
snL4BindRealServerName 27-40
snL4BindRowStatus 27-41
April 2008 © 2008 Foundry Networks, Inc. Index-21
Foundry Management Information Base Reference
snL4BindTable 27-40
snL4BindVirtualPortNumber 27-40
snL4BindVirtualServerName 27-40
snL4EnableBecomeActiveTrap 30-10
snL4EnableBecomeStandbyTrap 30-10
snL4EnableGslbHealthCheckIpDownTrap 30-10
snL4EnableGslbHealthCheckIpPortDownTrap 30-11
snL4EnableGslbHealthCheckIpPortUpTrap 30-10
snL4EnableGslbHealthCheckIpUpTrap 30-10
snL4EnableGslbRemoteGslbSiDownTrap 30-11
snL4EnableGslbRemoteGslbSiUpTrap 30-11
snL4EnableGslbRemoteSiDownTrap 30-11
snL4EnableGslbRemoteSiUpTrap 30-11
snL4EnableMaxSessionLimitReachedTrap 30-9
snL4EnableRealServerDownTrap 30-9
snL4EnableRealServerMaxConnLimitReachedTrap 30-10
snL4EnableRealServerPortDownTrap 30-10
snL4EnableRealServerPortUpTrap 30-10
snL4EnableRealServerUpTrap 30-9
snL4EnableTcpSynLimitReachedTrap 30-9
snL4FreeSessionCount 27-9
snL4GslbDnsZoneAvailSessions 27-45
snL4GslbDnsZoneHostAlias 27-44
snL4GslbDnsZoneHostIpAddr 27-44
snL4GslbDnsZoneHostName 27-44
snL4GslbDnsZoneHostSvrAppRtt 27-45
snL4GslbDnsZoneHostSvrIpSouce 27-44
snL4GslbDnsZoneHostSvrIpType 27-44
snL4GslbDnsZoneHostSvrLocation 27-44
snL4GslbDnsZoneHostSvrRespCnt 27-45
snL4GslbDnsZoneHostSvrRespPcent 27-45
snL4GslbDnsZoneHostSvrState 27-44
snL4GslbDnsZoneHostSvrTcpRtt 27-44
snL4GslbDnsZoneName 27-44
snL4GslbDnsZonePreference 27-45
snL4GslbDnsZonesEntry 27-44
snL4GslbDnsZoneSessionUtil 27-45
snL4GslbDnsZoneSIName 27-45
snL4GslbDnsZonesInfoTable 27-44
snL4GslbDnsZoneSISiteName 27-45
snL4GslbDnsZoneSiteWeight 27-45
snL4GslbSiteRemoteServerIronEntry 27-42
snL4GslbSiteRemoteServerIronIP 27-42
snL4GslbSiteRemoteServerIronPreference 27-43
snL4GslbSiteRemoteServerIronTable 27-42
snL4MaxNumWebCacheGroup 27-16
snL4MaxNumWebCachePerGroup 27-16
snL4MaxSessionLimit 27-8
snL4NoPDUCount 27-12
snL4NoPDUSent 27-12
snL4NoPortMap 27-12
snL4PingInterval 27-15
snL4PingRetry 27-15
snL4PolicyEntry 27-12
snL4PolicyId 27-13
snL4PolicyPort 27-13
snL4PolicyPortAccessEntry 27-14
snL4PolicyPortAccessList 27-14
snL4PolicyPortAccessPort 27-14
snL4PolicyPortAccessRowStatus 27-15
snL4PolicyPortAccessTable 27-14
snL4PolicyPriority 27-13
snL4PolicyProtocol 27-13
snL4PolicyRowStatus 27-14
snL4PolicyScope 27-13
snL4PolicyTable 27-12
snL4RealServerCfgAdminStatus 27-24
snL4RealServerCfgDeleteState 27-25
snL4RealServerCfgEntry 27-24
snL4RealServerCfgIP 27-24
snL4RealServerCfgMaxConnections 27-25
snL4RealServerCfgName 27-24
snL4RealServerCfgRowStatus 27-25
snL4RealServerCfgTable 27-24
snL4RealServerCfgWeight 27-25
snL4RealServerHistoryControlBucketsGranted 27-47
snL4RealServerHistoryControlBucketsRequested 27-47
snL4RealServerHistoryControlDataSource 27-46
snL4RealServerHistoryControlEntry 27-46
snL4RealServerHistoryControlIndex 27-46
snL4RealServerHistoryControlInterval 27-47
snL4RealServerHistoryControlOwner 27-47
snL4RealServerHistoryControlStatus 27-48
snL4RealServerHistoryControlTable 27-46
Index-22 © 2008 Foundry Networks, Inc. April 2008
snL4RealServerHistoryCurConnections 27-49
snL4RealServerHistoryEntry 27-48
snL4RealServerHistoryIndex 27-48
snL4RealServerHistoryIntervalStart 27-48
snL4RealServerHistoryPeakConnections 27-49
snL4RealServerHistoryReassignments 27-49
snL4RealServerHistoryReceivePkts 27-48
snL4RealServerHistorySampleIndex 27-48
snL4RealServerHistoryTable 27-48
snL4RealServerHistoryTotalConnections 27-49
snL4RealServerHistoryTransmitPkts 27-49
snL4RealServerPortCfgAdminStatus 27-26
snL4RealServerPortCfgDeleteState 27-26
snL4RealServerPortCfgEntry 27-26
snL4RealServerPortCfgIP 27-26
snL4RealServerPortCfgMaxConnections 27-27
snL4RealServerPortCfgPort 27-26
snL4RealServerPortCfgRowStatus 27-26
snL4RealServerPortCfgServerName 27-26
snL4RealServerPortCfgTable 27-26
snL4RealServerPortHistoryControlBucketsGranted 27-51
snL4RealServerPortHistoryControlBucketsRequested 27-50
snL4RealServerPortHistoryControlDataSource 27-50
snL4RealServerPortHistoryControlEntry 27-50
snL4RealServerPortHistoryControlIndex 27-50
snL4RealServerPortHistoryControlInterval 27-51
snL4RealServerPortHistoryControlOwner 27-51
snL4RealServerPortHistoryControlStatus 27-51
snL4RealServerPortHistoryControlTable 27-50
snL4RealServerPortHistoryCurConnections 27-53
snL4RealServerPortHistoryEntry 27-52
snL4RealServerPortHistoryIndex 27-52
snL4RealServerPortHistoryIntervalStart 27-52
snL4RealServerPortHistoryPeakConnections 27-53
snL4RealServerPortHistoryReceivePkts 27-52
snL4RealServerPortHistoryResponseTime 27-53
snL4RealServerPortHistorySampleIndex 27-52
snL4RealServerPortHistoryTable 27-52
snL4RealServerPortHistoryTotalConnections 27-52
snL4RealServerPortHistoryTransmitPkts 27-52
snL4RealServerPortStatisticCurrentConnection 27-32
snL4RealServerPortStatisticEntry 27-29
snL4RealServerPortStatisticFailTime 27-32
snL4RealServerPortStatisticIP 27-30
snL4RealServerPortStatisticPeakConnection 27-32
snL4RealServerPortStatisticPort 27-30
snL4RealServerPortStatisticReassignCount 27-30
snL4RealServerPortStatisticRxBytes 27-32
snL4RealServerPortStatisticRxPkts 27-32
snL4RealServerPortStatisticServerName 27-30
snL4RealServerPortStatisticState 27-31
snL4RealServerPortStatisticTable 27-29
snL4RealServerPortStatisticTotalConnection 27-32
snL4RealServerPortStatisticTxBytes 27-32
snL4RealServerPortStatisticTxPkts 27-32
snL4RealServerStatisticAge 27-28
snL4RealServerStatisticCurConnections 27-27
snL4RealServerStatisticCurrentSessions 27-29
snL4RealServerStatisticEntry 27-27
snL4RealServerStatisticFailedPortExists 27-29
snL4RealServerStatisticFailTime 27-29
snL4RealServerStatisticName 27-27
snL4RealServerStatisticPeakConnections 27-29
snL4RealServerStatisticRealIP 27-27
snL4RealServerStatisticReassignmentLimit 27-29
snL4RealServerStatisticReassignments 27-29
snL4RealServerStatisticReceivePkts 27-27
snL4RealServerStatisticState 27-28
snL4RealServerStatisticTable 27-27
snL4RealServerStatisticTotalConnections 27-27
snL4RealServerStatisticTotalReverseConnections 27-29
snL4RealServerStatisticTransmitPkts 27-27
snL4Redundancy 27-11
SnL4SciConcurrConnEntry 28-11
snL4slbAged 27-10
snL4slbDangling 27-10
snL4slbDisableCount 27-10
snL4slbDrops 27-10
April 2008 © 2008 Foundry Networks, Inc. Index-23
Foundry Management Information Base Reference
snL4slbFinished 27-10
snL4slbForwardTraffic 27-9
snL4slbGlobalSDAType 27-8
snL4slbLimitExceeds 27-8
snL4slbReverseTraffic 27-10
snL4slbRouterInterfacePortList 27-16
snL4slbRouterInterfacePortMask 27-16
snL4slbTotalConnections 27-8
snL4slbTotalConnections 27-8
snL4TcpAge 27-9
snL4TcpSynLimit 27-8
snL4UdpAge 27-9
snL4unsuccessfulConn 27-10
snL4VirtualServerBindEntry 27-41
snL4VirtualServerBindTable 27-41
snL4VirtualServerCfgAdminStatus 27-33
snL4VirtualServerCfgDeleteState 27-34
snL4VirtualServerCfgEntry 27-33
snL4VirtualServerCfgName 27-33
snL4VirtualServerCfgRowStatus 27-34
snL4VirtualServerCfgSDAType 27-34
snL4VirtualServerCfgSymPriority 27-35
snL4VirtualServerCfgTable 27-33
snL4VirtualServerCfgVirtualIP 27-33
snL4VirtualServerHistoryControlBucketsGranted 27-54
snL4VirtualServerHistoryControlBucketsRequested 27-54
snL4VirtualServerHistoryControlDataSource 27-53
snL4VirtualServerHistoryControlEntry 27-53
snL4VirtualServerHistoryControlIndex 27-53
snL4VirtualServerHistoryControlInterval 27-54
snL4VirtualServerHistoryControlOwner 27-54
snL4VirtualServerHistoryControlStatus 27-55
snL4VirtualServerHistoryControlTable 27-53
snL4VirtualServerHistoryCurConnections 27-56
snL4VirtualServerHistoryEntry 27-55
snL4VirtualServerHistoryIndex 27-55
snL4VirtualServerHistoryIntervalStart 27-55
snL4VirtualServerHistoryPeakConnections 27-56
snL4VirtualServerHistoryReceivePkts 27-55
snL4VirtualServerHistorySampleIndex 27-55
snL4VirtualServerHistoryTable 27-55
snL4VirtualServerHistoryTotalConnections 27-56
snL4VirtualServerHistoryTransmitPkts 27-56
snL4VirtualServerPortCfgAdminStatus 27-36
snL4VirtualServerPortCfgConcurrent 27-36
snL4VirtualServerPortCfgDeleteState 27-37
snL4VirtualServerPortCfgEntry 27-35
snL4VirtualServerPortCfgIP 27-35
snL4VirtualServerPortCfgPort 27-35
snL4VirtualServerPortCfgRowStatus 27-37
snL4VirtualServerPortCfgServerName 27-35
snL4VirtualServerPortCfgSticky 27-36
snL4VirtualServerPortCfgTable 27-35
snL4VirtualServerPortHistoryControlBucketsGranted 27-57
snL4VirtualServerPortHistoryControlBucketsRequested 27-57
snL4VirtualServerPortHistoryControlDataSource 27-56
snL4VirtualServerPortHistoryControlEntry 27-56
snL4VirtualServerPortHistoryControlIndex 27-56
snL4VirtualServerPortHistoryControlInterval 27-57
snL4VirtualServerPortHistoryControlOwner 27-57
snL4VirtualServerPortHistoryControlStatus 27-58
snL4VirtualServerPortHistoryControlTable 27-56
snL4VirtualServerPortHistoryCurConnections 27-59
snL4VirtualServerPortHistoryEntry 27-58
snL4VirtualServerPortHistoryIndex 27-58
snL4VirtualServerPortHistoryIntervalStart 27-58
snL4VirtualServerPortHistoryPeakConnections 27-59
snL4VirtualServerPortHistoryReceivePkts 27-58
snL4VirtualServerPortHistorySampleIndex 27-58
snL4VirtualServerPortHistoryTable 27-58
snL4VirtualServerPortHistoryTotalConnections 27-59
snL4VirtualServerPortHistoryTransmitPkts 27-59
snL4VirtualServerPortStatisticCurrentConnection 27-39
snL4VirtualServerPortStatisticEntry 27-39
snL4VirtualServerPortStatisticIP 27-39
snL4VirtualServerPortStatisticPeakConnection 27-40
snL4VirtualServerPortStatisticPort 27-39
Index-24 © 2008 Foundry Networks, Inc. April 2008
snL4VirtualServerPortStatisticServerName 27-39
snL4VirtualServerPortStatisticTable 27-39
snL4VirtualServerPortStatisticTotalConnection 27-40
snL4VirtualServerStatisticEntry 27-37
snL4VirtualServerStatisticIP 27-37
snL4VirtualServerStatisticName 27-37
snL4VirtualServerStatisticReceiveBytes 27-38
snL4VirtualServerStatisticReceivePkts 27-37
snL4VirtualServerStatisticSymmetricActivates 27-38
snL4VirtualServerStatisticSymmetricActiveMacAddr 27-39
snL4VirtualServerStatisticSymmetricBestStandbyMacAddr 27-39
snL4VirtualServerStatisticSymmetricInactives 27-39
snL4VirtualServerStatisticSymmetricKeep 27-38
snL4VirtualServerStatisticSymmetricPriority 27-38
snL4VirtualServerStatisticSymmetricState 27-38
snL4VirtualServerStatisticTable 27-37
snL4VirtualServerStatisticTotalConnections 27-38
snL4VirtualServerStatisticTransmitBytes 27-38
snL4VirtualServerStatisticTransmitPkts 27-38
snL4WebCacheAdminStatus 27-19
snL4WebCacheCurrConnections 27-21
snL4WebCacheDeleteState 27-19
snL4WebCacheEntry 27-18
snL4WebCacheGroupAdminStatus 27-18
snL4WebCacheGroupDestMask 27-17
snL4WebCacheGroupEntry 27-17
snL4WebCacheGroupId 27-17
snL4WebCacheGroupName 27-17
snL4WebCacheGroupRowStatus 27-18
snL4WebCacheGroupSrcMask 27-17
snL4WebCacheGroupTable 27-17
snL4WebCacheGroupWebCacheIpList 27-17
snL4WebCacheIP 27-18
snL4WebCacheMaxConnections 27-19
snL4WebCacheName 27-18
snL4WebCachePortAdminStatus 27-20
snL4WebCachePortDeleteState 27-20
snL4WebCachePortEntry 27-20
snL4WebCachePortPort 27-20
snL4WebCachePortRowStatus 27-20
snL4WebCachePortServerIp 27-20
snL4WebCachePortState 27-22
snL4WebCachePortTable 27-20
snL4WebCacheRowStatus 27-19
snL4WebCacheRxOctets 27-21
snL4WebCacheRxPkts 27-21
snL4WebCacheStateful 27-16
snL4WebCacheTable 27-18
snL4WebCacheTotalConnections 27-21
snL4WebCacheTrafficIp 27-21
snL4WebCacheTrafficPort 27-21
snL4WebCacheTrafficStatsEntry 27-21
snL4WebCacheTrafficStatsTable 27-21
snL4WebCacheTxOctets 27-21
snL4WebCacheTxPkts 27-21
snL4WebCacheWeight 27-19
snL4WebClientPort 27-23
snL4WebClientPortName 27-23
snL4WebServerPort 27-23
snL4WebServerPortName 27-23
snL4WebUncachedRxOctets 27-23
snL4WebUncachedRxPkts 27-23
snL4WebUncachedTrafficStatsEntry 27-23
snL4WebUncachedTrafficStatsTable 27-23
snL4WebUncachedTxOctets 27-23
snL4WebUncachedTxPkts 27-23
snLinkAggregationGroupAdminStatus 11-17
snLinkAggregationGroupEntry 11-17
snLinkAggregationGroupIfIndex 11-18
snLinkAggregationGroupIfList 11-18
snLinkAggregationGroupLacpTimeout 11-18
snLinkAggregationGroupName 11-17
snLinkAggregationGroupPortCount 11-18
snLinkAggregationGroupPrimaryPort 11-18
snLinkAggregationGroupRowStatus 11-18
snLinkAggregationGroupTable 11-17
snLinkAggregationGroupTrunkThreshold 11-18
snLinkAggregationGroupTrunkType 11-18
snLinkAggregationGroupType 11-17
snLoopbackIntfConfigEntry 11-24
snLoopbackIntfConfigPortIndex 11-24
snLoopbackIntfConfigTable 11-24
April 2008 © 2008 Foundry Networks, Inc. Index-25
Foundry Management Information Base Reference
snLoopbackIntfMode 11-24
snLoopbackIntfRowStatus 11-24
snMacAuthAge 8-3
snMacAuthClearGlobalCmd 8-1
snMacAuthClearIfCmdEntry 8-2
snMacAuthClearIfCmdIndex 8-2
snMacAuthClearIFCmdTable 8-2
snMacAuthClearMacSessionAction 8-4
snMacAuthClearMacSessionEntry 8-3
snMacAuthClearMacSessionIfIndex 8-3
snMacAuthClearMacSessionMac 8-4
snMacAuthClearMacSessionTable 8-3
snMacAuthDot1x 8-3
snMacAuthEntry 8-2
snMacAuthGlobalConfigState 8-1
snMacAuthIfIndex 8-2
snMacAuthMac 8-3
snMacAuthState 8-3
snMacAuthTable 8-2
snMacAuthTimeStamp 8-3
snMacAuthVlanId 8-2
snMacBasedVlanEntry 10-4
snMacBasedVlanId 10-4
snMacBasedVlanMac 10-4
snMacBasedVlanPortMemberPortId 10-2
snMacBasedVlanPortMemberRowStatus 10-2
snMacBasedVlanPortMemberVlanId 10-2
snMacBasedVlanPriority 10-4
snMacBasedVlanRowStatus 10-4
snMacBasedVlanTable 10-4
snMacFilterAction 12-2
snMacFilterDestMac 12-2
snMacFilterDestMask 12-2
snMacFilterEntry 12-2
snMacFilterFrameType 12-3
snMacFilterFrameTypeNum 12-3
snMacFilterIndex 12-2
snMacFilterOperator 12-2
snMacFilterPortAccessEntry 12-3
snMacFilterPortAccessFilters 12-4
snMacFilterPortAccessPortIndex 12-4
snMacFilterPortAccessRowStatus 12-4
snMacFilterPortAccessTable 12-3
snMacFilterRowStatus 12-3
snMacFilterSourceMac 12-2
snMacFilterSourceMask 12-2
snMacFilterTable 12-2
snMacStationVLanId 6-18
snMacVlanGlobalClearOper 10-1
snMacVlanGlobalDynConfigState 10-1
snMacVlanGlobalObjects 10-1
snMacVlanIfClearConfig 10-3
snMacVlanIfClearOper 10-3
snMacVlanIfEnable 10-3
snMacVlanIfEntry 10-3
snMacVlanIfIndex 10-3
snMacVlanIfMaxEntry 10-3
snMacVlanIfTable 10-3
snMacVlanPortMemberEntry 10-2
snMacVlanPortMemberTable 10-2
snMacVlanTableObjects 10-2
snMetroRingConfigState 14-22
snMetroRingEntry 14-22
snMetroRingHelloTime 14-22
snMetroRingId 14-22
snMetroRingName 14-23
snMetroRingOperState 14-23
snMetroRingPort1 14-22
snMetroRingPort2 14-22
snMetroRingPreforwardingTime 14-22
snMetroRingPriPort 14-23
snMetroRingPriPortActivePort 14-24
snMetroRingPriPortState 14-24
snMetroRingPriPortType 14-24
snMetroRingRHPReceived 14-23
snMetroRingRHPTransmitted 14-23
snMetroRingRole 14-22
snMetroRingRowStatus 14-23
snMetroRingSecPort 14-23
snMetroRingSecPortActivePort 14-24
snMetroRingSecPortState 14-24
snMetroRingSecPortType 14-24
snMetroRingStateChanged 14-23
snMetroRingTable 14-22
snMetroRingTCRBPDUReceived 14-23
snMetroRingTopoGroupId 14-23
Index-26 © 2008 Foundry Networks, Inc. April 2008
snMetroRingVlanId 14-22
snmpEnableAuthenTraps 30-2
snmpInTraps 30-1
snMplsLspChange 30-50
snMplsLspChange 30-52
snMplsLspDown 30-50
snMplsLspUp 30-49
snMplsLspUp 30-52
snMplsLspUp 30-52
snmpOutTraps 30-1
snMSTrunkEntry 11-15
snMSTrunkIfEntry 11-16
snMSTrunkIfIndex 11-16
snMSTrunkIfList 11-16
snMSTrunkIfRowStatus 11-17
snMSTrunkIfTable 11-16
snMSTrunkIfType 11-16
snMSTrunkPortIndex 11-15
snMSTrunkPortList 11-16
snMSTrunkRowStatus 11-16
snMSTrunkTable 11-15
snMSTrunkType 11-16
snNetFlowAggregationActiveTimeout 26-13
snNetFlowAggregationEnable 26-14
snNetFlowAggregationEntry 26-12
snNetFlowAggregationInactiveTimeout 26-13
snNetFlowAggregationIndex 26-13
snNetFlowAggregationIp 26-13
snNetFlowAggregationNumberOfCacheEntries 26-13
snNetFlowAggregationRowStatus 26-14
snNetFlowAggregationSourceInterface 26-13
snNetFlowAggregationTable 26-12
snNetFlowAggregationUdpPort 26-13
snNetFlowCollectorEntry 26-11
snNetFlowCollectorIndex 26-12
snNetFlowCollectorIp 26-12
snNetFlowCollectorRowStatus 26-12
snNetFlowCollectorSourceInterface 26-12
snNetFlowCollectorTable 26-11
snNetFlowCollectorUdpPort 26-12
snNetFlowGblActiveTimeout 26-11
snNetFlowGblEnable 26-11
snNetFlowGblInactiveTimeout 26-11
snNetFlowGblProtocolDisable 26-11
snNetFlowGblVersion 26-11
snNetFlowIfEntry 26-14
snNetFlowIfFlowSwitching 26-14
snNetFlowIfIndex 26-14
snNetFlowIfTable 26-14
snNetIronIMR 4-21
snNetIronMLX16Router 4-23
snNetIronMLX-32Router 4-24
snNetIronMLX4Router 4-24
snNetIronMLX8Router 4-24
snNetIronXMR16000 4-21
snNetIronXMR3200 4-22
snNI1500Router 4-3
snNI400Router 4-2
snNI40GRouter 4-5
snNI4802Router 4-5
snNI4802Switch 4-5
snNI800Router 4-2
snNIIMRRouter 4-21
snNIRouter 4-1
snNIXMR16000Router 4-21
snNIXMR4000Router 4-22
snNIXMR8000Router 4-22
snNTPGeneral 6-24
snNTPPollInterval 6-24
snNTPServerEntry 6-26
snNTPServerIp 6-27
snNTPServerRowStatus 6-27
snNTPServerTable 6-26
snNTPServerVersion 6-27
snNTPSummerTimeEnable 6-26
snNTPSync 6-26
snNTPSystemClock 6-26
snNTPTimeZone 6-25
snOspfAdminStat 19-2
snOspfAdminStat 19-35
snOspfAreaEntry 19-4
snOspfAreaId 19-4
snOspfAreaIdFormat 19-5
snOspfAreaRangeAreaID 19-6
snOspfAreaRangeAreaIdFormat 19-6
April 2008 © 2008 Foundry Networks, Inc. Index-27
Foundry Management Information Base Reference
snOspfAreaRangeEntry 19-6
snOspfAreaRangeMask 19-6
snOspfAreaRangeNet 19-6
snOspfAreaRangeRowStatus 19-6
snOspfAreaRangeTable 19-6
snOspfAreaRowStatus 19-5
snOspfAreaStatusAreaBdrRtrCount 19-27
snOspfAreaStatusAreaId 19-26
snOspfAreaStatusAreaIdFormat 19-27
snOspfAreaStatusASBdrRtrCount 19-27
snOspfAreaStatusEntry 19-26
snOspfAreaStatusEntryIndex 19-26
snOspfAreaStatusImportASExtern 19-26
snOspfAreaStatusLSACksumSum 19-27
snOspfAreaStatusLSACount 19-27
snOspfAreaStatusSpfRuns 19-27
snOspfAreaStatusStubMetric 19-27
snOspfAreaStatusTable 19-26
snOspfAreaTable 19-4
snOspfASBdrRtrStatus 19-2
snOspfConfigErrorType 30-8
snOspfDefaultOspfMetricValue 19-2
snOspfDistance 19-3
snOspfDistanceExternal 19-4
snOspfDistanceInter 19-4
snOspfDistanceIntra 19-4
snOspfExitOverflowInterval 19-3
snOspfExternLSACksumSum 19-2
snOspfExternLSACount 19-2
snOspfExtLsdbAdvertisement 19-26
snOspfExtLsdbAge 19-26
snOspfExtLsdbChecksum 19-26
snOspfExtLsdbEntry 19-25
snOspfExtLsdbEntryIndex 19-25
snOspfExtLsdbLimit 19-3
snOspfExtLsdbLsId 19-25
snOspfExtLsdbRouterId 19-25
snOspfExtLsdbSequence 19-25
snOspfExtLsdbTable 19-25
snOspfExtLsdbType 19-25
snOspfIf2AdminStat 19-10
snOspfIf2AreaId 19-10
snOspfIf2AreaIdFormat 19-13
snOspfIf2AuthKey 19-12
snOspfIf2AuthType 19-11
snOspfIf2DatabaseFilterAllOut 19-13
snOspfIf2Entry 19-10
snOspfIf2HelloInterval 19-11
snOspfIf2Md5ActivationWaitTime 19-13
snOspfIf2Md5AuthKey 19-13
snOspfIf2Md5AuthKeyId 19-12
snOspfIf2MetricValue 19-12
snOspfIf2MtuIgnore 19-13
snOspfIf2NetworkP2mp 19-13
snOspfIf2NetworkP2pt 19-13
snOspfIf2PassiveMode 19-13
snOspfIf2Port 19-10
snOspfIf2RetransInterval 19-11
snOspfIf2RowStatus 19-12
snOspfIf2RtrDeadInterval 19-11
snOspfIf2RtrPriority 19-11
snOspfIf2Table 19-10
snOspfIf2TransitDelay 19-11
snOspfIfAdminStat 19-7
snOspfIfAreaId 19-7
snOspfIfAreaIdFormat 19-9
snOspfIfAuthFailure 30-37
snOspfIfAuthKey 19-8
snOspfIfAuthType 19-8
snOspfIfConfigError 30-36
snOspfIfDatabaseFilterAllOut 19-10
snOspfIfEntry 19-7
snOspfIfHelloInterval 19-8
snOspfIfMd5ActivationWaitTime 19-9
snOspfIfMd5AuthKey 19-9
snOspfIfMd5AuthKeyId 19-9
snOspfIfMetricValue 19-9
snOspfIfMtuIgnore 19-10
snOspfIfNetworkP2mp 19-10
snOspfIfPassiveMode 19-10
snOspfIfPort 19-7
snOspfIfRetransInterval 19-7
snOspfIfRowStatus 19-9
snOspfIfRtrDeadInterval 19-8
snOspfIfRtrPriority 19-7
snOspfIfRxBadPacket 30-37
Index-28 © 2008 Foundry Networks, Inc. April 2008
snOspfIfStatusAdminStat 19-28
snOspfIfStatusAreaId 19-28
snOspfIfStatusAreaIdFormat 19-31
snOspfIfStatusAuthKey 19-30
snOspfIfStatusAuthType 19-30
snOspfIfStatusBackupDesignatedRouter 19-29
snOspfIfStatusDesignatedRouter 19-29
snOspfIfStatusEntry 19-28
snOspfIfStatusEntryIndex 19-28
snOspfIfStatusEvents 19-30
snOspfIfStatusHelloInterval 19-29
snOspfIfStatusIpAddress 19-28
snOspfIfStatusMd5ActivationWaitTime 19-31
snOspfIfStatusMd5AuthKey 19-31
snOspfIfStatusMd5AuthKeyId 19-30
snOspfIfStatusMetricValue 19-30
snOspfIfStatusPort 19-28
snOspfIfStatusRetransInterval 19-29
snOspfIfStatusRtrDeadInterval 19-29
snOspfIfStatusRtrPriority 19-28
snOspfIfStatusState 19-29
snOspfIfStatusTable 19-27
snOspfIfStatusTransitDelay 19-29
snOspfIfStatusType 19-28
snOspfIfTable 19-7
snOspfIfTransitDelay 19-7
snOspfImportASExtern 19-5
snOspfLsdbAdvertisement 19-24
snOspfLsdbAge 19-24
snOspfLsdbApproachingOverflow 30-39
snOspfLsdbAreaId 19-23
snOspfLsdbAreaIdFormat 19-24
snOspfLsdbChecksum 19-24
snOspfLsdbEntry 19-23
snOspfLsdbEntryIndex 19-23
snOspfLsdbLsId 19-23
snOspfLsdbOverflow 30-39
snOspfLsdbRouterId 19-24
snOspfLsdbSequence 19-24
snOspfLsdbTable 19-23
snOspfLsdbType 19-23
snOspfMaxAgeLsa 30-39
snOspfNbrEntry 19-18
snOspfNbrEntryIndex 19-18
snOspfNbrEvents 19-20
snOspfNbrIndex 19-18
snOspfNbrIpAddr 19-18
snOspfNbrLsRetransQLen 19-21
snOspfNbrOptions 19-19
snOspfNbrPort 19-18
snOspfNbrPriority 19-19
snOspfNbrRtrId 19-19
snOspfNbrState 19-20
snOspfNbrStateChange 30-35
snOspfNbrTable 19-18
snOspfOriginateLsa 30-39
snOspfOriginateNewLSAs 19-2
snOspfOspfRedisMetricType 19-3
snOspfPacketSrc 30-8
snOspfPacketType 30-8
snOspfRedisAction 19-17
snOspfRedisEntry 19-16
snOspfRedisIndex 19-16
snOspfRedisIpAddress 19-17
snOspfRedisMask 19-17
snOspfRedisMatchRipMetric 19-17
snOspfRedisMode 19-2
snOspfRedisOspfMetricValue 19-17
snOspfRedisProtocol 19-17
snOspfRedisRipMetricValue 19-17
snOspfRedisRowStatus 19-18
snOspfRedisSetOspfMetric 19-17
snOspfRedisTable 19-16
snOspfRfc1583Compatibility 19-3
snOspfRouterId 19-2
snOspfRouterIdFormat 19-3
snOspfRoutingInfoEntry 19-34
snOspfRoutingInfoIndex 19-34
snOspfRoutingInfoNextHopRouterID 19-34
snOspfRoutingInfoOutgoingInterface 19-34
snOspfRoutingInfoRouter 19-34
snOspfRoutingInfoRouterType 19-34
snOspfRoutingInfoTable 19-34
snOspfRxNewLSAs 19-3
snOspfSetTrap 30-8
snOspfStubMetric 19-5
April 2008 © 2008 Foundry Networks, Inc. Index-29
Foundry Management Information Base Reference
snOspfTrapsGenerationMode 30-8
snOspfTxRetransmit 30-38
snOspfVirtIfAreaID 19-14
snOspfVirtIfAreaIdFormat 19-16
snOspfVirtIfAuthFailure 30-37
snOspfVirtIfAuthKey 19-15
snOspfVirtIfAuthType 19-15
snOspfVirtIfConfigError 30-36
snOspfVirtIfEntry 19-14
snOspfVirtIfHelloInterval 19-14
snOspfVirtIfMd5ActivationWaitTime 19-16
snOspfVirtIfMd5AuthKey 19-16
snOspfVirtIfMd5AuthKeyId 19-16
snOspfVirtIfNeighbor 19-14
snOspfVirtIfRetransInterval 19-14
snOspfVirtIfRowStatus 19-15
snOspfVirtIfRtrDeadInterval 19-14
snOspfVirtIfRxBadPacket 30-38
snOspfVirtIfStatusAreaID 19-31
snOspfVirtIfStatusAreaIdFormat 19-33
snOspfVirtIfStatusAuthKey 19-33
snOspfVirtIfStatusAuthType 19-32
snOspfVirtIfStatusEntry 19-31
snOspfVirtIfStatusEntryIndex 19-31
snOspfVirtIfStatusEvents 19-32
snOspfVirtIfStatusHelloInterval 19-32
snOspfVirtIfStatusMd5ActivationWaitTime 19-33
snOspfVirtIfStatusMd5AuthKey 19-33
snOspfVirtIfStatusMd5AuthKeyId 19-33
snOspfVirtIfStatusNeighbor 19-31
snOspfVirtIfStatusRetransInterval 19-32
snOspfVirtIfStatusRtrDeadInterval 19-32
snOspfVirtIfStatusState 19-32
snOspfVirtIfStatusTable 19-31
snOspfVirtIfStatusTransitDelay 19-32
snOspfVirtIfTable 19-14
snOspfVirtIfTransitDelay 19-14
snOspfVirtNbrArea 19-21
snOspfVirtNbrAreaIdFormat 19-23
snOspfVirtNbrEntry 19-21
snOspfVirtNbrEntryIndex 19-21
snOspfVirtNbrEvents 19-22
snOspfVirtNbrIpAddr 19-21
snOspfVirtNbrLSRetransQLen 19-22
snOspfVirtNbrOptions 19-21
snOspfVirtNbrRtrId 19-21
snOspfVirtNbrState 19-22
snOspfVirtNbrStateChange 30-36
snOspfVirtNbrTable 19-21
snPimCandidateBSREntry 14-10
snPimCandidateBSRHashMaskLen 14-11
snPimCandidateBSRIPAddress 14-11
snPimCandidateBSRPortID 14-11
snPimCandidateBSRPreference 14-11
snPimCandidateBSRTable 14-10
snPimCandidateRPEntry 14-12
snPimCandidateRPGroupAddress 14-12
snPimCandidateRPIPAddress 14-12
snPimCandidateRPMask 14-12
snPimCandidateRPRowStatus 14-12
snPimCandidateRPTable 14-12
snPimEnable 14-5
snPimGraftRetransmitTime 14-5
snPimHelloTime 14-5
snPimInactivityTime 14-6
snPimJoinPruneInterval 14-10
snPimNeighborAddress 14-8
snPimNeighborEntry 14-7
snPimNeighborEntryIndex 14-7
snPimNeighborExpiryTime 14-8
snPimNeighborRouterTimeout 14-5
snPimNeighborTable 14-7
snPimNeighborUpTime 14-8
snPimNeighborVifIndex 14-7
snPimPruneTime 14-5
snPimRPSetEntry 14-11
snPimRPSetGroupAddress 14-11
snPimRPSetHoldTime 14-12
snPimRPSetIPAddress 14-11
snPimRPSetMask 14-11
snPimRPSetTable 14-11
snPimVIfStatDiscardAssertPkts 14-9
snPimVIfStatDiscardGraftAckPkts 14-10
snPimVIfStatDiscardGraftPkts 14-9
snPimVIfStatDiscardHelloPkts 14-9
snPimVIfStatDiscardJoinPkts 14-8
Index-30 © 2008 Foundry Networks, Inc. April 2008
snPimVIfStatDiscardPrunePkts 14-9
snPimVIfStatEntry 14-8
snPimVIfStatInAssertPkts 14-9
snPimVIfStatInGraftAckPkts 14-10
snPimVIfStatInGraftPkts 14-9
snPimVIfStatInHelloPkts 14-9
snPimVIfStatInJoinPkts 14-8
snPimVIfStatInPrunePkts 14-8
snPimVIfStatOutAssertPkts 14-9
snPimVIfStatOutGraftAckPkts 14-10
snPimVIfStatOutGraftPkts 14-9
snPimVIfStatOutHelloPkts 14-9
snPimVIfStatOutJoinPkts 14-8
snPimVIfStatOutPrunePkts 14-9
snPimVIfStatTable 14-8
snPimVIfStatVifIndex 14-8
snPimVInterfaceDR 14-6
snPimVInterfaceEntry 14-6
snPimVInterfaceLocalAddress 14-6
snPimVInterfaceLocalSubnetMask 14-6
snPimVInterfaceMode 14-7
snPimVInterfaceRemoteAddress 14-6
snPimVInterfaceStatus 14-7
snPimVInterfaceTable 14-6
snPimVInterfaceTtlThreshold 14-7
snPimVInterfaceType 14-6
snPimVInterfaceVifIndex 14-6
snPortCARAccIdx 13-3
snPortCARConformAction 13-4
snPortCARDirection 13-3
snPortCAREntry 13-3
snPortCARExceedAction 13-4
snPortCARExtLimit 13-3
snPortCARifIndex 13-3
snPortCARLimit 13-3
snPortCARRate 13-3
snPortCARRowIndex 13-3
snPortCARStatCurBurst 13-4
snPortCARStatFilteredBytes 13-4
snPortCARStatFilteredPkts 13-4
snPortCARStatSwitchedBytes 13-4
snPortCARStatSwitchedPkts 13-4
snPortCARTable 13-3
snPortCARType 13-3
snPortMacGlobalSecurityAgeOutTime 9-7
snPortMacGlobalSecurityAutosave 9-7
snPortMacGlobalSecurityFeature 9-6
snPortMacSecurityAgeLeft 9-2
snPortMacSecurityAutosaveMacAddress 9-6
snPortMacSecurityAutosaveMacEntry 9-6
snPortMacSecurityAutosaveMacIfIndex 9-6
snPortMacSecurityAutosaveMacQueryIndex 9-6
snPortMacSecurityAutosaveMacResource 9-6
snPortMacSecurityAutosaveMacTable 9-6
snPortMacSecurityEntry 9-2
snPortMacSecurityIfIndex 9-2
snPortMacSecurityIntfContentAgeOutTime 9-4
snPortMacSecurityIntfContentEntry 9-3
snPortMacSecurityIntfContentIfIndex 9-4
snPortMacSecurityIntfContentMaxLockedMacAl-lowed 9-4
snPortMacSecurityIntfContentSecurity 9-4
snPortMacSecurityIntfContentShutdownTime 9-4
snPortMacSecurityIntfContentShutdownTimeLeft 9-4
snPortMacSecurityIntfContentTable 9-3
snPortMacSecurityIntfContentTotalMACs 9-4
snPortMacSecurityIntfContentViolationCounts 9-4
snPortMacSecurityIntfContentViolationType 9-4
snPortMacSecurityIntfMacAddress 9-5
snPortMacSecurityIntfMacEntry 9-5
snPortMacSecurityIntfMacIfIndex 9-5
snPortMacSecurityIntfMacRowStatus 9-5
snPortMacSecurityIntfMacTable 9-5
snPortMacSecurityIntfMacVlanId 9-5
snPortMacSecurityMAC 9-2
snPortMacSecurityModuleStatEntry 9-3
snPortMacSecurityModuleStatSlotNum 9-3
snPortMacSecurityModuleStatTable 9-3
snPortMacSecurityModuleStatTotalMACs 9-3
snPortMacSecurityModuleStatTotalSecurityPorts 9-3
snPortMacSecurityModuleStatTotalShutdown-Ports 9-3
snPortMacSecurityModuleStatViolationCounts 9-3
snPortMacSecurityQueryIndex 9-2
April 2008 © 2008 Foundry Networks, Inc. Index-31
Foundry Management Information Base Reference
snPortMacSecurityResource 9-2
snPortMacSecurityShutdownStatus 9-2
snPortMacSecurityShutdownTimeLeft 9-2
snPortMacSecurityTable 9-1
snPortMacSecurityVlanId 9-2
snPortMonitorEntry 11-32
snPortMonitorIfIndex 11-32
snPortMonitorMirrorList 11-33
snPortMonitorTable 11-32
snPortStpEntry 11-25
snPortStpEntrySize 6-18
snPortStpOperState 11-26
snPortStpPathCost 11-26
snPortStpPortDesignatedBridge 11-27
snPortStpPortDesignatedCost 11-27
snPortStpPortDesignatedPort 11-27
snPortStpPortDesignatedRoot 11-27
snPortStpPortEnable 11-26
snPortStpPortForwardTransitions 11-26
snPortStpPortNum 11-25
snPortStpPortPriority 11-25
snPortStpPortState 11-27
snPortStpSetAll 6-16
snPortStpTable 11-25
snPortStpVLanId 11-25
snPOScHDLCInLoopback 24-5
snPOScHDLCLineState 24-5
snPOScHDLCMySeq 24-5
snPOScHDLCMySeqSeen 24-5
snPOScHDLCPeerSeqSeen 24-5
snPOScHDLCTable 24-5
snPOScHDLCUniqueReceived 24-6
snPOScHDLCUniqueSent 24-6
snPOSDescr 11-19
snPOSIfIndex 11-19
snPOSInfo2AlarmMonitoring 24-3
snPOSInfo2Clock 24-2
snPOSInfo2CRC 24-2
snPOSInfo2Encapsulation 24-3
snPOSInfo2Entry 24-2
snPOSInfo2FlagC2 24-2
snPOSInfo2KeepAlive 24-2
snPOSInfo2OverheadJ0ExpectedMessage 24-4
snPOSInfo2OverheadJ0TransmitMessage 24-4
snPOSInfo2OverheadJ1ExpectedMessage 24-4
snPOSInfo2OverheadJ1MessageLength 24-4
snPOSInfo2OverheadJ1TransmitMessage 24-4
snPOSInfo2ScrambleATM 24-2
snPOSInfo2SSM 24-3
snPOSInfo2Table 24-2
snPOSInfoAdminStatus 11-19
snPOSInfoClock 11-20
snPOSInfoCRC 11-20
snPOSInfoEntry 11-19
snPOSInfoFlagC2 11-21
snPOSInfoFlagH1 11-21
snPOSInfoFlagJ0 11-21
snPOSInfoFraming 11-20
snPOSInfoKeepAlive 11-21
snPOSInfoLinkStatus 11-20
snPOSInfoLoopBack 11-20
snPOSInfoPortNum 11-19
snPOSInfoScrambleATM 11-20
snPOSInfoSpeed 11-19
snPOSInfoTable 11-19
snPOSInOctets 11-22
snPOSName 11-19
snPOSOutOctets 11-22
snPOSPPP-IPCP 24-4
snPOSPPP-LCP 24-4
snPOSPPP-MPLSCP 24-5
snPOSPPPTable 24-4
snPOSStatsAIS 11-23
snPOSStatsAlignErrors 11-21
snPOSStatsB1 11-23
snPOSStatsB2 11-23
snPOSStatsB3 11-23
snPOSStatsFCSErrors 11-21
snPOSStatsFrameTooLongs 11-21
snPOSStatsFrameTooShorts 11-21
snPOSStatsInBitsPerSec 11-22
snPOSStatsInDiscard 11-22
snPOSStatsInFrames 11-21
snPOSStatsInPktsPerSec 11-22
snPOSStatsInUtilization 11-22
snPOSStatsLOF 11-23
Index-32 © 2008 Foundry Networks, Inc. April 2008
snPOSStatsLOP 11-23
snPOSStatsLOS 11-23
snPOSStatsOutBitsPerSec 11-22
snPOSStatsOutDiscard 11-22
snPOSStatsOutFrames 11-21
snPOSStatsOutPktsPerSec 11-22
snPOSStatsOutUtilization 11-22
snPOSStatsRDI 11-23
snPOSTagType 11-22
snQosBindEntry 13-2
snQosBindIndex 13-2
snQosBindPriority 13-2
snQosBindProfileIndex 13-2
snQosBindTable 13-2
snQosProfileCalculatedBandwidth 13-2
snQosProfileEntry 13-1
snQosProfileIndex 13-1
snQosProfileName 13-2
snQosProfileRequestedBandwidth 13-2
snQosProfileTable 13-1
snRadiusDeadTime 7-12
snRadiusEnableMethod 7-13
snRadiusEnableTelnetAuth 7-12
snRadiusGeneral 7-12
snRadiusKey 7-12
snRadiusLoginMethod 7-13
snRadiusRetransmit 7-12
snRadiusServerAcctPort 7-15
snRadiusServerAuthPort 7-15
snRadiusServerEntry 7-15
snRadiusServerIp 7-15
snRadiusServerRowKey 7-15
snRadiusServerRowStatus 7-15
snRadiusServerTable 7-14
snRadiusServerUsage 7-15
snRadiusSNMPAccess 7-12
snRadiusSNMPServerMethod 7-14
snRadiusTimeOut 7-12
snRadiusWebServerMethod 7-14
snRtArpAge 18-2
snRtATAddZoneFilterAction 22-10
snRtATAddZoneFilterEntry 22-9
snRtATAddZoneFilterPortIndex 22-9
snRtATAddZoneFilterRtmpEnable 22-10
snRtATAddZoneFilterTable 22-9
snRtATArpRetransmitCount 22-2
snRtATArpRetransmitInterval 22-2
snRtATClearArpCache 22-2
snRtATClearFwdCache 22-2
snRtATClearRoute 22-2
snRtATClearTrafficCounters 22-2
snRtATDroppedBadHopCountsDdpPkts 22-4
snRtATDroppedNoRouteDdpPkts 22-4
snRtATDroppedOtherReasonsDdpPkts 22-4
snRtATFilteredRtmpPkts 22-3
snRtATForwardedDdpPkts 22-4
snRtATFwdCacheAction 22-8
snRtATFwdCacheEntry 22-8
snRtATFwdCacheIndex 22-8
snRtATFwdCacheMacAddr 22-8
snRtATFwdCacheNetAddr 22-8
snRtATFwdCacheNextHop 22-8
snRtATFwdCacheOutgoingPort 22-8
snRtATFwdCacheTable 22-8
snRtATFwdCacheType 22-8
snRtATFwdCacheVLanId 22-8
snRtATGleanPacketsEnable 22-3
snRtATInAarpPkts 22-4
snRtATInDdpPkts 22-4
snRtATInDeliveredDdpPkts 22-4
snRtATInRtmpPkts 22-3
snRtATInZipGZLPkts 22-3
snRtATInZipNetInfoPkts 22-4
snRtATInZipPkts 22-3
snRtATOutAarpPkts 22-4
snRtATOutDdpPkts 22-4
snRtATOutRtmpPkts 22-3
snRtATOutZipGZLPkts 22-3
snRtATOutZipNetInfoPkts 22-4
snRtATOutZipPkts 22-3
snRtATPortArpAge 22-7
snRtATPortEntry 22-7
snRtATPortIndex 22-7
snRtATPortOperationMode 22-7
snRtATPortSeedRouter 22-7
snRtATPortState 22-7
April 2008 © 2008 Foundry Networks, Inc. Index-33
Foundry Management Information Base Reference
snRtATPortTable 22-7
snRtATPortZoneFilterAction 22-6
snRtATPortZoneFilterEntry 22-5
snRtATPortZoneFilterPortIndex 22-6
snRtATPortZoneFilterRowStatus 22-6
snRtATPortZoneFilterRtmpEnable 22-6
snRtATPortZoneFilterTable 22-5
snRtATPortZoneFilterZone 22-6
snRtATRoutingEnable 22-2
snRtATRtmpUpdateInterval 22-3
snRtATSocketPriorityEntry 22-5
snRtATSocketPriorityPriority 22-5
snRtATSocketPrioritySocket 22-5
snRtATSocketPriorityTable 22-5
snRtATZipQueryInterval 22-3
snRtATZoneEntry 22-9
snRtATZoneIndex 22-9
snRtATZoneName 22-9
snRtATZoneNetEnd 22-9
snRtATZoneNetStart 22-9
snRtATZoneTable 22-9
snRtBootpRelayMax 18-2
snRtBootpServer 18-2
snRtClearArpCache 18-2
snRtClearIpCache 18-2
snRtClearIpRoute 18-2
snRtIpDirBcastFwd 18-3
snRtIpFilterAction 18-6
snRtIpFilterDestIp 18-6
snRtIpFilterDestMask 18-6
snRtIpFilterEntry 18-5
snRtIpFilterEstablished 18-7
snRtIpFilterIndex 18-5
snRtIpFilterOperand 18-7
snRtIpFilterOperator 18-7
snRtIpFilterProtocol 18-6
snRtIpFilterQosPriority 18-8
snRtIpFilterRowStatus 18-7
snRtIpFilterSourceIp 18-6
snRtIpFilterSourceMask 18-6
snRtIpFilterTable 18-5
snRtIpFwdCacheAction 18-19
snRtIpFwdCacheCurEntries 18-3
snRtIpFwdCacheEntry 18-18
snRtIpFwdCacheFragCheck 18-19
snRtIpFwdCacheIndex 18-18
snRtIpFwdCacheIp 18-18
snRtIpFwdCacheMac 18-18
snRtIpFwdCacheMaxEntries 18-3
snRtIpFwdCacheNextHopIp 18-18
snRtIpFwdCacheOutgoingIf 18-19
snRtIpFwdCacheOutgoingPort 18-18
snRtIpFwdCacheSnapHdr 18-19
snRtIpFwdCacheTable 18-18
snRtIpFwdCacheType 18-18
snRtIpFwdCacheVLanId 18-19
snRtIpIfConfigEntry 18-12
snRtIpIfConfigInterfaceIndex 18-12
snRtIpIfConfigTable 18-12
snRtIpIfDirBcastFwd 18-12
snRtIpIfEncap 18-12
snRtIpIfMetric 18-12
snRtIpIfMtu 18-12
snRtIpIrdpEnable 18-2
snRtIpLoadShare 18-2
snRtIpLoadShareMaxPaths 18-3
snRtIpLoadShareMinPaths 18-3
snRtIpLoadShareNumOfPaths 18-3
snRtIpMaxStaticRouteEntries 18-3
snRtIpPortAccessDirection 18-10
snRtIpPortAccessEntry 18-9
snRtIpPortAccessFilters 18-10
snRtIpPortAccessPortIndex 18-9
snRtIpPortAccessRowStatus 18-10
snRtIpPortAccessTable 18-9
snRtIpPortAddrEntry 18-8
snRtIpPortAddress 18-8
snRtIpPortAddrPortIndex 18-8
snRtIpPortAddrTable 18-8
snRtIpPortAddrType 18-9
snRtIpPortConfigEntry 18-10
snRtIpPortConfigPortIndex 18-11
snRtIpPortConfigTable 18-10
snRtIpPortDirBcastFwd 18-11
snRtIpPortEncap 18-11
snRtIpPortMetric 18-11
Index-34 © 2008 Foundry Networks, Inc. April 2008
snRtIpPortMtu 18-11
snRtIpPortRowStatus 18-9
snRtIpPortSubnetMask 18-8
snRtIpProtocolRouterId 18-4
snRtIpProxyArp 18-2
snRtIpRarp 18-3
snRtIpRarpEntry 26-6
snRtIpRarpIndex 26-6
snRtIpRarpIp 26-6
snRtIpRarpMac 26-6
snRtIpRarpRowStatus 26-6
snRtIpRarpTable 26-6
snRtIpRipDistance 17-3
snRtIpRipEnable 17-1
snRtIpRipFiltOnAllPort 17-3
snRtIpRipGblFiltList 17-2
snRtIpRipNbrFilterAction 17-7
snRtIpRipNbrFilterEntry 17-7
snRtIpRipNbrFilterId 17-7
snRtIpRipNbrFilterRowStatus 17-8
snRtIpRipNbrFilterSourceIp 17-7
snRtIpRipNbrFilterTable 17-7
snRtIpRipPortAccessDir 17-8
snRtIpRipPortAccessEntry 17-8
snRtIpRipPortAccessFilterList 17-9
snRtIpRipPortAccessPort 17-8
snRtIpRipPortAccessRowStatus 17-9
snRtIpRipPortAccessTable 17-8
snRtIpRipPortConfigEntry 17-3
snRtIpRipPortConfigPortIndex 17-4
snRtIpRipPortConfigTable 17-3
snRtIpRipPortLearnDefault 17-4
snRtIpRipPortPoisonReverse 17-4
snRtIpRipPortVersion 17-4
snRtIpRipRedisAction 17-4
snRtIpRipRedisDefMetric 17-2
snRtIpRipRedisEnable 17-2
snRtIpRipRedisEntry 17-4
snRtIpRipRedisIndex 17-4
snRtIpRipRedisIp 17-5
snRtIpRipRedisMask 17-5
snRtIpRipRedisMatchMetric 17-5
snRtIpRipRedisProtocol 17-5
snRtIpRipRedisRouteMapName 17-5
snRtIpRipRedisRowStatus 17-5
snRtIpRipRedisSetMetric 17-5
snRtIpRipRedisTable 17-4
snRtIpRipRouteFilterAction 17-6
snRtIpRipRouteFilterEntry 17-6
snRtIpRipRouteFilterId 17-6
snRtIpRipRouteFilterIpAddr 17-6
snRtIpRipRouteFilterRowStatus 17-7
snRtIpRipRouteFilterSubnetMask 17-6
snRtIpRipRouteFilterTable 17-6
snRtIpRipSetAllPortConfig 17-2
snRtIpRipStats 17-9
snRtIpRipStatsBadAddrFamily 17-10
snRtIpRipStatsBadMetrics 17-10
snRtIpRipStatsBadRequestFormat 17-10
snRtIpRipStatsBadRespFormat 17-10
snRtIpRipStatsBadVersion 17-10
snRtIpRipStatsInRequest 17-10
snRtIpRipStatsInResponse 17-10
snRtIpRipStatsOutRequest 17-9
snRtIpRipStatsOutResponse 17-10
snRtIpRipStatsPacketRejected 17-11
snRtIpRipStatsRespFromNonRipPort 17-10
snRtIpRipStatsResponseFromLoopback 17-10
snRtIpRipStatsUnrecognized 17-10
snRtIpRipUpdateTime 17-2
snRtIpSetAllPortConfig 18-3
snRtIpSourceRoute 18-4
snRtIpStaticRouteDest 18-4
snRtIpStaticRouteDistance 18-5
snRtIpStaticRouteEntry 18-4
snRtIpStaticRouteIndex 18-4
snRtIpStaticRouteMask 18-4
snRtIpStaticRouteMetric 18-5
snRtIpStaticRouteNextHop 18-4
snRtIpStaticRouteRowStatus 18-5
snRtIpStaticRouteTable 18-4
snRtIpTraceRouteControl 18-17
snRtIpTraceRouteMaxTtl 18-16
snRtIpTraceRouteMinTtl 18-16
snRtIpTraceRouteResultAddr 18-17
snRtIpTraceRouteResultEntry 18-17
April 2008 © 2008 Foundry Networks, Inc. Index-35
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snRtIpTraceRouteResultIndex 18-17
snRtIpTraceRouteResultRoundTripTime1 18-17
snRtIpTraceRouteResultRoundTripTime2 18-17
snRtIpTraceRouteResultTable 18-17
snRtIpTraceRouteTargetAddr 18-16
snRtIpTraceRouteTimeOut 18-16
snRtIpTtl 18-3
snRtStaticArpEntry 26-7
snRtStaticArpIfIndex 26-8
snRtStaticArpIndex 26-7
snRtStaticArpIp 26-7
snRtStaticArpMac 26-7
snRtStaticArpPort 26-7
snRtStaticArpRowStatus 26-8
snRtStaticArpTable 26-7
snRtUdpBcastFwdEnable 18-13
snRtUdpBcastFwdPortEntry 18-13
snRtUdpBcastFwdPortIndex 18-13
snRtUdpBcastFwdPortNumber 18-14
snRtUdpBcastFwdPortRowStatus 18-14
snRtUdpBcastFwdPortTable 18-13
snRtUdpHelperAddr 18-15
snRtUdpHelperAddrTypr 18-15
snRtUdpHelperEntry 18-15
snRtUdpHelperIndex 18-15
snRtUdpHelperPortIndex 18-15
snRtUdpHelperRowStatus 18-15
snRtUdpHelperTable 18-14
snSciConcurrConnHitCount 28-12
snSciConcurrConnifDescr 28-12
snSciConcurrConnIfIndex 28-12
snSciConcurrConnLimit 28-11
snSciConcurrConnLimitStatsTable 28-11
snSciConcurrConnPolicyName 28-12
snSciCumFilterType 28-4
snSciCumPktsDropCount 28-4
snSciCumPktsLogCount 28-4
snSciCumulative 28-3
snSciCumulativeStatEntry 28-3
snSciCumulativeStatisticsTable 28-3
snSciDeepPacketScan 28-14
snSciDeepPacketScanEntry 28-14
snSciDeepPacketScanTable 28-14
snSciDeepPktScanAction 28-14
snSciDeepPktScanPolicyName 28-14
snSciDeepPktScanRuleHitCnt 28-14
snSciDeepPktScanRuleIndex 28-14
snSciDeepPktScanRuleName 28-14
snSciDestConnDenyCount 28-14
snSciDestConnEntry 28-13
snSciDestConnHitCount 28-14
snSciDestConnifDescr 28-13
snSciDestConnIfIndex 28-13
snSciDestConnPolicyName 28-13
snSciDestConnRateLimit 28-13
snSciDestConnRateLimitStatsTable 28-13
SnSciDosFilterEntry 28-2
snSciDosFilterName 28-2
snSciDosFilterPktsDropCount 28-3
snSciDosFilterPktsLogCount 28-3
SnSciDosFilterStatistics 28-2
SnSciDosFilterStatisticsTable 28-2
snSciDosFilterType 28-2
snSciFireWallCurrentConns 28-7
snSciFireWallFw2HostOctets 28-7
snSciFireWallFw2HostPkts 28-7
snSciFireWallHost2FwOctets 28-7
snSciFireWallHost2FwPkts 28-7
snSciFireWallifIndex 28-11
snSciFireWallName 28-7
snSciFireWallNextHopIP 28-10
snSciFireWallPathNum 28-10
snSciFireWallPathRecvStatus 28-11
snSciFireWallPathSentStatus 28-11
snSciFireWallPathState 28-11
snSciFireWallPathStatus 28-11
snSciFireWallServer 28-6
snSciFireWallServerIP 28-7
snSciFireWallServerPath 28-10
snSciFireWallServerPathEntry 28-10
snSciFireWallServerPathTable 28-10
snSciFireWallServerState 28-7
snSciFireWallServerStatisticsTable 28-6
snSciFireWallTargetIP 28-10
snSciFireWallTotalConns 28-7
snSciFireWallZone 28-11
Index-36 © 2008 Foundry Networks, Inc. April 2008
snSciFWL4CurrentConns 28-10
snSciFWL4Fw2HostPkts 28-10
snSciFWL4Host2FwOctets 28-10
snSciFWL4Host2FwPkts 28-10
snSciFWL4Port 28-8
snSciFWL4PortEntry 28-8
snSciFWL4PortNum 28-9
snSciFWL4PortStatisticsTable 28-8
snSciFWL4ServerName 28-8
snSciFWL4ServerState 28-9
snSciFWL4TotalConns 28-10
snSciFWL4TrafficDir 28-9
snSciMacFilter 28-5
snSciMacFilterAction 28-6
snSciMacFilterDestAddr 28-6
snSciMacFilterDestMask 28-6
snSciMacFilterFilterNum 28-6
snSciMacFilterHitCounter 28-6
snSciMacFilterSrcAddr 28-6
snSciMacFilterSrcMask 28-6
snSciMacFilterStatisticTable 28-5
snSciSipBadSyntaxDropCnt 28-5
snSciSipBadSyntaxLogCnt 28-5
snSciSipFilter 28-4
snSciSipFilterEntry 28-5
snSciSipFilterInterfaceStr 28-5
snSciSipFilterStatisticsTable 28-4
snSciSipPolicyName 28-5
snSciSipUndefinedMethodDropCnt 28-5
snSciTransRateDenyCount 28-13
snSciTransRateEntry 28-12
snSciTransRateHitCount 28-13
snSciTransRateifDescr 28-13
snSciTransRateifIndex 28-12
snSciTransRateLimit 28-12
snSciTransRateLimitStatsTable 28-12
snSciTransRatePolicyName 28-13
snSecureIronFamily 4-23
snSecureIronLS100 4-23
snSecureIronLS100Router 4-23
snSecureIronLS100Switch 4-23
snSecureIronLS300 4-23
snSecureIronLS300Router 4-23
snSecureIronLS300Switch 4-23
snSecureIronLSFamily 4-23
snSecureIronTM100 4-23
snSecureIronTM100Router 4-23
snSecureIronTM100Switch 4-23
snSecureIronTM300 4-23
snSecureIronTM300Router 4-23
snSecureIronTM300Switch 4-23
snSecureIronTMFamily 4-23
snSflowCollectorEntry 26-9
snSflowCollectorIndex 26-10
snSflowCollectorIP 26-10
snSflowCollectorRowStatus 26-10
snSflowCollectorTable 26-9
snSflowCollectorUDPPort 26-10
snSI 4-1
snSI1500Router 4-3
snSI1500Switch 4-3
snSI400Router 4-3
snSI400Switch 4-3
snSI800Router 4-3
snSI800Switch 4-3
snSIXL 4-1
snSIXLTCS 4-1
snSw8021qTagMode 6-17
snSw8021qTagType 6-18
snSwBroadcastLimit 6-19
snSwClearCounters 6-18
snSwDefaultVLanId 6-19
snSwEnableBridgeNewRootTrap 30-9
snSwEnableBridgeTopoChangeTrap 30-9
snSwEnableLockedAddrViolationTrap 30-9
snSwEosBufferSize 6-17
snSwFastStpMode 6-20
snSwGlobalAutoNegotiate 6-19
snSwGlobalStpMode 6-17
snSwGroupDefaultCfgMode 6-15
snSwGroupIpL3SwMode 6-15
snSwGroupIpMcastMode 6-15
snSwGroupOperMode 6-15
snSwGroupSwitchAgeTime 6-15
snSwIfDescr 11-7
snSwIfDhcpGateListId 11-6
April 2008 © 2008 Foundry Networks, Inc. Index-37
Foundry Management Information Base Reference
snSwIfFastSpanPortEnable 11-8
snSwIfFastSpanUplinkEnable 11-8
snSwIfGBICStatus 11-9
snSwIfInfoAdminStatus 11-5
snSwIfInfoAutoNegotiate 11-7
snSwIfInfoChnMode 11-3
snSwIfInfoConnectorType 11-5
snSwIfInfoEntry 11-2
snSwIfInfoFlowControl 11-7
snSwIfInfoGigType 11-8
snSwIfInfoLinkStatus 11-5
snSwIfInfoMediaType 11-5
snSwIfInfoMirrorPorts 11-2
snSwIfInfoMonitorMode 11-2
snSwIfInfoPhysAddress 11-6
snSwIfInfoPortNum 11-2
snSwIfInfoPortQos 11-6
snSwIfInfoSpeed 11-4
snSwIfInfoTable 11-1
snSwIfInfoTagMode 11-2
snSwIfInfoTagType 11-2
snSwIfInOctets 11-11
snSwIfLoadInterval 11-9
snSwIfLockAddressCount 11-6
snSwIfName 11-7
snSwIfOutOctets 11-11
snSwIfPresent 11-9
snSwIfRouteOnly 11-8
snSwIfStatsAlignErrors 11-9
snSwIfStatsFCSErrors 11-9
snSwIfStatsFrameTooLongs 11-10
snSwIfStatsFrameTooShorts 11-10
snSwIfStatsInBcastFrames 11-10
snSwIfStatsInBitsPerSec 11-11
snSwIfStatsInDiscard 11-11
snSwIfStatsInFrames 11-9
snSwIfStatsInMcastFrames 11-10
snSwIfStatsInPktsPerSec 11-11
snSwIfStatsInUtilization 11-12
snSwIfStatsLinkChange 11-11
snSwIfStatsMacStations 11-11
snSwIfStatsMultiColliFrames 11-10
snSwIfStatsOutBcastFrames 11-10
snSwIfStatsOutBitsPerSec 11-11
snSwIfStatsOutDiscard 11-11
snSwIfStatsOutFrames 11-9
snSwIfStatsOutMcastFrames 11-10
snSwIfStatsOutPktsPerSec 11-11
snSwIfStatsOutUtilization 11-12
snSwIfStatsRxColliFrames 11-10
snSwIfStatsTxColliFrames 11-10
snSwIfStpPortEnable 11-6
snSwIfVlanId 11-8
snSwIpMcastQuerierMode 6-17
snSwIpxL3SwMode 6-18
snSwlfMacLearningDisable 11-12
snSwlfSInfoMirrorMode 11-12
snSwlfStatsInJumboFrames 11-12
snSwlfStatsOutJumboFrames 11-12
snSwMaxMacFilterPerPort 6-19
snSwMaxMacFilterPerSystem 6-19
snSwPortEntrySize 6-17
snSwPortSetAll 6-16
snSwProbePortNum 6-16
snSwProtocolVLanMode 6-18
snSwQosMechanism 6-19
snSwSingleStpMode 6-19
snSwSummaryMode 6-20
snSwViolatorIfIndex 6-20
snSwViolatorMacAddress 6-17
snSwViolatorPortNumber 6-17
snT8Router 4-1
snT8SI 4-2
snT8SIXLG 4-2
snT8Switch 4-1
snTacacsDeadTime 7-17
snTacacsGeneral 7-17
snTacacsKey 7-17
snTacacsRetransmit 7-17
snTacacsServerAuthPort 7-18
snTacacsServerEntry 7-18
snTacacsServerIp 7-18
snTacacsServerRowKey 7-18
snTacacsServerRowStatus 7-18
snTacacsServerTable 7-18
snTacacsServerUsage 7-18
Index-38 © 2008 Foundry Networks, Inc. April 2008
snTacacsSNMPAccess 7-17
snTacacsTimeOut 7-17
snTIRouter 4-1
snTISwitch 4-1
snTrapAccessListDeny 30-21
snTrapAclConfigChange 30-23
snTrapAutoPortDisableRelease 30-52
snTrapAutoPortDisableTrigger 30-52
snTrapBgpPeerDown 30-45
snTrapBgpPeerUp 30-45
snTrapCAMOverflow 30-27
snTrapCAMOverflow 30-47
snTrapChasFanFailed 30-20
snTrapChasFanNormal 30-20
snTrapChasFanOK 30-26
snTrapChasPwrSupply 30-19
snTrapChasPwrSupplyFailed 30-20
snTrapChassisFanSpeedHigh 30-28
snTrapChassisFanSpeedLow 30-27
snTrapChassisFanSpeedMedHigh 30-28
snTrapChassisFanSpeedMedium 30-28
snTrapClientLoginReject 30-22
snTrapDuplicateIp 30-21
snTrapErrorDisableAction 30-54
snTrapFsrpIfStateChange 30-33
snTrapIcmpLocalExceedBurst 30-44
snTrapIcmpTransitExceedBurst 30-44
snTrapL4BecomeActive 30-41
snTrapL4BecomeStandby 30-41
snTrapL4FirewallBecomeActive 30-43
snTrapL4FirewallBecomeStandby 30-43
snTrapL4FirewallPathDown 30-43
snTrapL4FirewallPathUp 30-43
snTrapL4GslbHealthCheckIpDown 30-42
snTrapL4GslbHealthCheckIpPortDown 30-42
snTrapL4GslbHealthCheckIpPortUp 30-42
snTrapL4GslbHealthCheckIpUp 30-42
snTrapL4GslbRemoteControllerDown 30-42
snTrapL4GslbRemoteControllerUp 30-42
snTrapL4GslbRemoteDown 30-42
snTrapL4GslbRemoteUp 30-41
snTrapL4MaxSessionLimitReached 30-40
snTrapL4RealServerDown 30-40
snTrapL4RealServerMaxConnectionLimitReached 30-41
snTrapL4RealServerPortDown 30-40
snTrapL4RealServerPortUp 30-40
snTrapL4RealServerResponseTimeLowerLimit 30-41
snTrapL4RealServerResponseTimeUpperLimit 30-41
snTrapL4RealServerUp 30-40
snTrapL4TcpSynLimitReached 30-40
snTrapLocalUserConfigChange 30-23
snTrapLockedAddressViolation 30-19
snTrapLockedAddressViolation2 30-20
snTrapMacBasedVlanDisabled 30-33
snTrapMacBasedVlanEnabled 30-33
snTrapMacFilterConfigChange 30-24
snTrapMacFilterDeny 30-21
snTrapMgmtModuleRedunStateChange 30-21
snTrapModuleInserted 30-20
snTrapModuleRemoved 30-20
snTrapMplsAudit 30-47
snTrapMplsDeveloper 30-47
snTrapMplsException 30-47
snTrapMplsProblem 30-47
snTrapMrpCamError 30-46
snTrapMrpStateChange 30-46
snTrapMstpBPDUGuardDetect 30-53
snTrapOpticalMonitoringAlarm 30-14
snTrapOpticalMonitoringAlarm 30-29
snTrapOpticalMonitoringError 30-15
snTrapOpticalMonitoringError 30-30
snTrapOpticalMonitoringFoundryOpticsNotCa-pable 30-17
snTrapOpticalMonitoringWarning 30-14
snTrapOpticalMonitoringWarning 30-29
snTrapOspfIfStateChange 30-34
snTrapOspfVirtIfStateChange 30-35
snTrapPasswordConfigChange 30-25
snTrapPnPStatusChange 30-51
snTrapPortPriorityChange 30-26
snTrapPortPriorityChange 30-46
snTrapPortSecurityShutdown 30-46
snTrapPortSecurityViolation 30-46
snTrapPosMonitoringAlarm 30-32
April 2008 © 2008 Foundry Networks, Inc. Index-39
Foundry Management Information Base Reference
snTrapPosMonitoringError 30-32
snTrapPosMonitoringWarning 30-32
snTrapRunningConfigChanged 30-21
snTrapServerStatusChange 30-25
snTrapSFMLinkDown 30-17
snTrapSFMLinkDown 30-32
snTrapSFMLinkUp 30-17
snTrapSFMLinkUp 30-32
snTrapSNMPConfigChange 30-24
snTrapStpBPDUGuardDetect 30-53
snTrapStpRootGuardDetect 30-53
snTrapStpRootGuardExpire 30-53
snTrapStpRootGuardExpire 30-54
snTrapSyslogConfigChange 30-25
snTrapTcpLocalExceedBurst 30-44
snTrapTcpTransitExceedBurst 30-45
snTrapTemperatureOK 30-27
snTrapTemperatureWarning 30-21
snTrapTMLoggingRestart 30-16
snTrapTMLoggingRestart 30-31
snTrapTMLoggingStart 30-16
snTrapTMLoggingStart 30-31
snTrapTMLoggingStop 30-16
snTrapTMLoggingStop 30-31
snTrapUDLDLinkDown 30-52
snTrapUserLogin 30-22
snTrapUserLogout 30-22
snTrapVlanConfigChange 30-23
snTrapVrrpIfStateChange 30-33
snTrapVsrpCamError 30-34
snTrapVsrpStateChange 30-34
snTrapWirelessIsrpPeerStateChange 30-51
snTrapWirelessSappStateChange 30-50
snTrapWirelessStationRoamingEventTriggered 30-51
snTrapWirelessStationStateChange 30-50
snTrapXfpSfpIncompatibleOptics 30-16
snTrapXfpSfpIncompatibleOptics 30-31
snTrapXfpSfpNotFoundryOptics 30-17
snTrunkEntry 11-15
snTrunkIndex 11-15
snTrunkPortMask 11-15
snTrunkTable 11-15
snTrunkType 11-15
snTurboIronSuperX 4-20
snTurboIronSuperXBaseL3Switch 4-21
snTurboIronSuperXFamily 4-20
snTurboIronSuperXPrem 4-21
snTurboIronSuperXPremBaseL3Switch 4-21
snTurboIronSuperXPremRouter 4-21
snTurboIronSuperXPremSwitch 4-21
snTurboIronSuperXRouter 4-20
snTurboIronSuperXSwitch 4-20
snVLanByATCableChassisStaticMask 15-20
snVLanByATCableEntry 15-19
snVLanByATCableIndex 15-19
snVLanByATCableRouterIntf 15-19
snVLanByATCableRowStatus 15-20
snVLanByATCableStaticPortList 15-20
snVLanByATCableTable 15-19
snVLanByATCableVLanId 15-19
snVLanByATCableVLanName 15-20
snVLanByIpSubnetChassisDynamicMask 15-16
snVLanByIpSubnetChassisExcludeMask 15-16
snVLanByIpSubnetChassisStaticMask 15-16
snVLanByIpSubnetDynamic 15-15
snVLanByIpSubnetDynamicMask 15-16
snVLanByIpSubnetDynamicPortList 15-16
snVLanByIpSubnetEntry 15-15
snVLanByIpSubnetExcludeMask 15-15
snVLanByIpSubnetExcludePortList 15-16
snVLanByIpSubnetIpAddress 15-15
snVLanByIpSubnetMaxSubnets 6-18
snVLanByIpSubnetRouterIntf 15-15
snVLanByIpSubnetRowStatus 15-15
snVLanByIpSubnetStaticMask 15-15
snVLanByIpSubnetStaticPortList 15-16
snVLanByIpSubnetSubnetMask 15-15
snVLanByIpSubnetTable 15-14
snVLanByIpSubnetVLanId 15-15
snVLanByIpSubnetVLanName 15-16
snVLanByIpxNetChassisDynamicMask 15-18
snVLanByIpxNetChassisExcludeMask 15-18
snVLanByIpxNetChassisStaticMask 15-18
snVLanByIpxNetDynamic 15-17
snVLanByIpxNetDynamicMask 15-18
Index-40 © 2008 Foundry Networks, Inc. April 2008
snVLanByIpxNetDynamicPortList 15-19
snVLanByIpxNetEntry 15-17
snVLanByIpxNetExcludeMask 15-17
snVLanByIpxNetExcludePortList 15-19
snVLanByIpxNetFrameType 15-17
snVLanByIpxNetMaxNetworks 6-18
snVLanByIpxNetNetworkNum 15-17
snVLanByIpxNetRouterIntf 15-17
snVLanByIpxNetRowStatus 15-18
snVLanByIpxNetStaticMask 15-17
snVLanByIpxNetStaticPortList 15-19
snVLanByIpxNetTable 15-17
snVLanByIpxNetVLanId 15-17
snVLanByIpxNetVLanName 15-18
snVLanByPortBaseBridgeAddress 15-6
snVLanByPortBaseNumPorts 15-4
snVLanByPortBaseType 15-4
snVLanByPortCfgBaseBridgeAddress 15-11
snVLanByPortCfgBaseBridgeAddress 15-25
snVLanByPortCfgBaseNumPorts 15-23
snVLanByPortCfgBaseNumPorts 15-9
snVLanByPortCfgBaseType 15-10
snVLanByPortCfgBaseType 15-24
snVLanByPortCfgEntry 15-22
snVLanByPortCfgEntry 15-7
snVLanByPortCfgInOctets 15-26
snVLanByPortCfgQos 15-22
snVLanByPortCfgQos 15-8
snVLanByPortCfgRouterIntf 15-12
snVLanByPortCfgRouterIntf 15-26
snVLanByPortCfgRowStatus 15-12
snVLanByPortCfgRowStatus 15-26
snVLanByPortCfgStpDesignatedRoot 15-11
snVLanByPortCfgStpDesignatedRoot 15-25
snVLanByPortCfgStpForwardDelay 15-11
snVLanByPortCfgStpForwardDelay 15-25
snVLanByPortCfgStpGroupForwardDelay 15-23
snVLanByPortCfgStpGroupForwardDelay 15-9
snVLanByPortCfgStpGroupHello Time 15-23
snVLanByPortCfgStpGroupHello Time 15-9
snVLanByPortCfgStpGroupMaxAge 15-23
snVLanByPortCfgStpGroupMaxAge 15-9
snVLanByPortCfgStpHelloTime 15-10
snVLanByPortCfgStpHelloTime 15-24
snVLanByPortCfgStpHoldTime 15-10
snVLanByPortCfgStpHoldTime 15-24
snVLanByPortCfgStpMaxAge 15-10
snVLanByPortCfgStpMaxAge 15-24
snVLanByPortCfgStpMode 15-22
snVLanByPortCfgStpMode 15-8
snVLanByPortCfgStpPriority 15-22
snVLanByPortCfgStpPriority 15-8
snVLanByPortCfgStpProtocolSpecification 15-10
snVLanByPortCfgStpProtocolSpecification 15-24
snVLanByPortCfgStpRootCost 15-11
snVLanByPortCfgStpRootCost 15-25
snVLanByPortCfgStpRootPort 15-11
snVLanByPortCfgStpRootPort 15-25
snVLanByPortCfgStpTimeSinceTopologyChange 15-11
snVLanByPortCfgStpTimeSinceTopologyChange 15-25
snVLanByPortCfgStpTopChanges 15-11
snVLanByPortCfgStpTopChanges 15-25
snVLanByPortCfgStpVersion 15-12
snVLanByPortCfgStpVersion 15-26
snVLanByPortCfgTable 15-22
snVLanByPortCfgTable 15-7
snVLanByPortCfgVLanId 15-22
snVLanByPortCfgVLanId 15-8
snVLanByPortCfgVLanName 15-11
snVLanByPortCfgVLanName 15-25
snVLanByPortChassisPortMask 15-6
snVLanByPortEntry 15-1
snVLanByPortEntrySize 6-17
snVLanByPortMemberEntry 15-21
snVLanByPortMemberEntry 15-7
snVLanByPortMemberPortId 15-21
snVLanByPortMemberPortId 15-7
snVLanByPortMemberRowStatus 15-21
snVLanByPortMemberRowStatus 15-7
snVlanByPortMemberTable 15-21
snVLanByPortMemberTable 15-6
snVLanByPortMemberVLanId 15-21
snVLanByPortMemberVLanId 15-7
snVLanByPortOperState 15-4
snVLanByPortPortList 15-6
April 2008 © 2008 Foundry Networks, Inc. Index-41
Foundry Management Information Base Reference
snVLanByPortPortMask 15-2
snVLanByPortQos 15-2
snVLanByPortRouterIntf 15-6
snVLanByPortStpDesignatedRoot 15-6
snVLanByPortStpForwardDelay 15-5
snVLanByPortStpGroupForwardDelay 15-3
snVLanByPortStpGroupHello Time 15-3
snVLanByPortStpGroupMaxAge 15-3
snVLanByPortStpHelloTime 15-5
snVLanByPortStpHoldTime 15-5
snVLanByPortStpMaxAge 15-5
snVLanByPortStpMode 15-2
snVLanByPortStpPriority 15-2
snVLanByPortStpProtocolSpecification 15-4
snVLanByPortStpRootCost 15-5
snVLanByPortStpRootPort 15-6
snVLanByPortStpTimeSinceTopologyChange 15-5
snVLanByPortStpTopChanges 15-5
snVLanByPortTable 15-1
snVLanByPortVLanId 15-2
snVLanByPortVLanIndex 15-2
snVLanByPortVLanName 15-6
snVLanByProtocolChassisDynamicMask 15-14
snVLanByProtocolChassisExcludeMask 15-14
snVLanByProtocolChassisStaticMask 15-13
snVLanByProtocolDynamic 15-13
snVLanByProtocolDynamicMask 15-13
snVLanByProtocolDynamicPortList 15-14
snVLanByProtocolEntry 15-12
snVLanByProtocolExcludeMask 15-13
snVLanByProtocolExcludePortList 15-14
snVLanByProtocolIndex 15-12
snVLanByProtocolRouterIntf 15-13
snVLanByProtocolRowStatus 15-13
snVLanByProtocolStaticMask 15-13
snVLanByProtocolStaticPortList 15-14
snVLanByProtocolTable 15-12
snVLanByProtocolVLanId 15-12
snVLanByProtocolVLanName 15-14
snVLanCARAccIdx 13-5
snVLanCARConformAction 13-6
snVLanCARDirection 13-5
snVLanCAREntry 13-5
snVLanCARExceedAction 13-6
snVLanCARExtLimit 13-5
snVLanCARLimit 13-5
snVLanCARRate 13-5
snVLanCARRowIndex 13-5
snVLanCARStatCurBurst 13-6
snVLanCARStatFilteredBytes 13-6
snVLanCARStatFilteredPkts 13-6
snVLanCARStatSwitchedBytes 13-6
snVLanCARStatSwitchedPkts 13-6
snVLanCARTable 13-5
snVLanCARType 13-5
snVLanCARVLanId 13-5
snVLanGroupSetAllVLan 6-15
snVLanGroupVlanCurEntry 6-15
snVLanGroupVlanMaxEntry 6-17
snVrrpGroupOperMode 16-5
snVrrpIf2AuthPassword 16-6
snVrrpIf2AuthType 16-6
snVrrpIf2Entry 16-6
snVrrpIf2RxAuthPwdMismatchErrCnts 16-7
snVrrpIf2RxAuthTypeErrCnts 16-7
snVrrpIf2RxHeaderErrCnts 16-6
snVrrpIf2RxVridErrCnts 16-7
snVrrpIf2Table 16-6
snVrrpIf2Table 2-9
snVrrpIfAuthPassword 16-5
snVrrpIfAuthType 16-5
snVrrpIfEntry 16-5
snVrrpIfPort 16-5
snVrrpIfRxAuthPwdMismatchErrCnts 16-6
snVrrpIfRxAuthTypeErrCnts 16-6
snVrrpIfRxHeaderErrCnts 16-6
snVrrpIfRxVridErrCnts 16-6
snVrrpIfStateChangeTrap 30-7
snVrrpIfTable 16-5
snVrrpVirRtr2Activate 16-15
snVrrpVirRtr2AdvertiseBackup 16-18
snVrrpVirRtr2CfgPriority 16-14
snVrrpVirRtr2CurrDeadInt 16-17
snVrrpVirRtr2CurrPriority 16-14
snVrrpVirRtr2DeadInt 16-15
Index-42 © 2008 Foundry Networks, Inc. April 2008
snVrrpVirRtr2Entry 16-13
snVrrpVirRtr2HelloInt 16-14
snVrrpVirRtr2Id 16-13
snVrrpVirRtr2IpAddrCount 16-18
snVrrpVirRtr2IpAddrMask 16-15
snVrrpVirRtr2MasterIpAddr 16-18
snVrrpVirRtr2Ownership 16-13
snVrrpVirRtr2PreemptMode 16-15
snVrrpVirRtr2RowStatus 16-16
snVrrpVirRtr2RxArpPktDropCnts 16-16
snVrrpVirRtr2RxHelloIntMismatchCnts 16-16
snVrrpVirRtr2RxHigherPriorityCnts 16-17
snVrrpVirRtr2RxIpMismatchCnts 16-16
snVrrpVirRtr2RxIpPktDropCnts 16-16
snVrrpVirRtr2RxNumOfIpMismatchCnts 16-16
snVrrpVirRtr2RxPortMismatchCnts 16-16
snVrrpVirRtr2RxPriorityZeroFromMasterCnts 16-16
snVrrpVirRtr2State 16-15
snVrrpVirRtr2Table 16-13
snVrrpVirRtr2TrackPortList 16-17
snVrrpVirRtr2TrackPriority 16-14
snVrrpVirRtr2TransToBackupStateCnts 16-17
snVrrpVirRtr2TransToMasterStateCnts 16-17
snVrrpVirRtr2VirtualMacAddr 16-18
snVrrpVirRtrActivate 16-9
snVrrpVirRtrBackupInt 16-24
snVrrpVirRtrBackupInt 16-29
snVrrpVirRtrCfgPriority 16-8
snVrrpVirRtrCurrDeadInt 16-12
snVrrpVirRtrCurrPriority 16-8
snVrrpVirRtrDeadInt 16-9
snVrrpVirRtrEntry 16-7
snVrrpVirRtrHelloInt 16-8
snVrrpVirRtrId 16-7
snVrrpVirRtrIpAddrMask 16-9
snVrrpVirRtrOwnership 16-8
snVrrpVirRtrPort 16-7
snVrrpVirRtrPreemptMode 16-9
snVrrpVirRtrRowStatus 16-11
snVrrpVirRtrRxArpPktDropCnts 16-11
snVrrpVirRtrRxHelloIntMismatchCnts 16-11
snVrrpVirRtrRxHigherPriorityCnts 16-12
snVrrpVirRtrRxIpMismatchCnts 16-11
snVrrpVirRtrRxIpPktDropCnts 16-11
snVrrpVirRtrRxNumOfIpMismatchCnts 16-11
snVrrpVirRtrRxPortMismatchCnts 16-11
snVrrpVirRtrRxPriorityZeroFromMasterCnts 16-11
snVrrpVirRtrState 16-9
snVrrpVirRtrTable 16-7
snVrrpVirRtrTrackPortList 16-12
snVrrpVirRtrTrackPortMask 16-10
snVrrpVirRtrTrackPriority 16-8
snVrrpVirRtrTrackVifMask 16-10
snVrrpVirRtrTrackVifPortList 16-13
snVrrpVirRtrTransToBackupStateCnts 16-12
snVrrpVirRtrTransToMasterStateCnts 16-12
snVsrpClearVrrpStat 16-19
snVsrpGroupOperModeVsrp 16-19
snVsrpGroupOperModeVsrp 16-19
snVsrpIfAuthPassword 16-20
snVsrpIfAuthType 16-20
snVsrpIfEntry 16-19
snVsrpIfMaxNumVridPerIntf 16-19
snVsrpIfMaxNumVridPerSystem 16-19
snVsrpIfStateChangeTrap 30-7
snVsrpIfTable 16-19
snVsrpIfVlanId 16-19
snVsrpVirRtrActivate 16-22
snVsrpVirRtrActivate 16-27
snVsrpVirRtrAdvertiseBackup 16-23
snVsrpVirRtrAdvertiseBackup 16-28
snVsrpVirRtrCfgPriority 16-21
snVsrpVirRtrCfgPriority 16-26
snVsrpVirRtrCurHelloInt 16-25
snVsrpVirRtrCurHelloInt 16-29
snVsrpVirRtrCurHoldDownInt 16-25
snVsrpVirRtrCurHoldDownInt 16-29
snVsrpVirRtrCurInitTtl 16-25
snVsrpVirRtrCurInitTtl 16-30
snVsrpVirRtrCurrDeadInt 16-25
snVsrpVirRtrCurrDeadInt 16-29
snVsrpVirRtrCurrPriority 16-21
snVsrpVirRtrCurrPriority 16-27
snVsrpVirRtrCurrPriority 16-28
April 2008 © 2008 Foundry Networks, Inc. Index-43
Foundry Management Information Base Reference
snVsrpVirRtrDeadInt 16-22
snVsrpVirRtrDeadInt 16-27
snVsrpVirRtrEntry 16-20
snVsrpVirRtrEntry 16-26
snVsrpVirRtrHelloInt 16-21
snVsrpVirRtrHelloInt 16-27
snVsrpVirRtrHelloIpAddress 16-25
snVsrpVirRtrHelloMacAddress 16-25
snVsrpVirRtrHelloMacAddress 16-30
snVsrpVirRtrHoldDownInt 16-23
snVsrpVirRtrHoldDownInt 16-28
snVsrpVirRtrId 16-20
snVsrpVirRtrId 16-26
snVsrpVirRtrIncPortList 16-24
snVsrpVirRtrIncPortList 16-29
snVsrpVirRtrInitTtl 16-24
snVsrpVirRtrInitTtl 16-28
snVsrpVirRtrIpAddrMask 16-22
snVsrpVirRtrMasterIpAddr 16-30
snVsrpVirRtrOwnership 16-20
snVsrpVirRtrOwnership 16-26
snVsrpVirRtrPreemptMode 16-22
snVsrpVirRtrRowStatus 16-24
snVsrpVirRtrRowStatus 16-29
snVsrpVirRtrRxHelloIntMismatchCnts 16-24
snVsrpVirRtrRxIpMismatchCnts 16-24
snVsrpVirRtrRxNumOfIpMismatchCnts 16-24
snVsrpVirRtrRxPriorityZeroFromMasterCnts 16-25
snVsrpVirRtrState 16-22
snVsrpVirRtrState 16-27
snVsrpVirRtrTable 16-20
snVsrpVirRtrTable 16-26
snVsrpVirRtrTrackPortList 16-23
snVsrpVirRtrTrackPriority 16-21
snVsrpVirRtrTrackPriority 16-27
snVsrpVirRtrTransToBackupStateCnts 16-25
snVsrpVirRtrTransToBackupStateCnts 16-29
snVsrpVirRtrTransToMasterStateCnts 16-25
snVsrpVirRtrTransToMasterStateCnts 16-29
snVsrpVirRtrVlanId 16-20
snVsrpVirRtrVlanId 16-26
Specifies the community number. This is a number from 1 to 0xFFFFFFFF. There are 20 numbers.
Each number is represented by four octets. 7-7
ssnL4GslbDnsZoneSIMgmtIpAddr 27-45
Syntax: Counter64 12-19
Syntax: Counter64 12-19
Syntax: Counter64 12-19
Syntax: Counter64 12-19
Syntax: Counter64 12-19
Syntax: Counter64 12-19
Syntax: Counter64 12-19
Syntax: Counter64 12-19
Syntax: Counter64 12-20
Syntax: Counter64 15-26
Syntax: Display string 6-28
The number of bytes received on this VLAN. This can be used as the per VE couter, if there is one-to-one map for VLAN-VE. 15-26
vendors 4-22
wgIfAutoPortDisable 29-2
wgIfEntry 29-2
wgIfFullCompRoamingEnable 29-2
wgIfIndex 29-2
wgIfPnPLearnNewAP 29-2
wgIfTable 29-2
wgIfVpnPTPolicyId 29-2
wgIfWirelessEnable 29-2
wgMobilityId 29-1
wgPnPEntry 29-3
wgPnPIfIndex 29-3
wgPnPIpAddress 29-4
wgPnPIpDefaultGw 29-4
wgPnPIpMask 29-4
wgPnPMacAddress 29-4
wgPnPRowStatus 29-4
wgPnPStatus 29-4
wgPnPTable 29-3
wgRoamingPeerConnectionStatus 29-3
wgRoamingPeerEntry 29-3
wgRoamingPeerIpAddress 29-3
wgRoamingPeerRowStatus 29-3
wgRoamingPeerTable 29-3
wgVpnPTDeletePolicy 29-1
wgVpnPTFilterEntry 29-5
wgVpnPTFilterPolicyId 29-5
wgVpnPTFilterPort 29-5
Index-44 © 2008 Foundry Networks, Inc. April 2008
wgVpnPTFilterProtocol 29-5
wgVpnPTFilterRowStatus 29-6
wgVpnPTFilterTable 29-5
wgVpnPTPolicyEntry 29-6
wgVpnPTPolicyId 29-6
wgVpnPTPolicyPortList 29-6
wgVpnPTPolicyTable 29-6
wgVpnPTServerEntry 29-5
wgVpnPTServerIpAddress 29-5
wgVpnPTServerPolicyId 29-5
wgVpnPTServerRowStatus 29-5
wgVpnPTServerTable 29-4
wirelessAp 4-22
wirelessProbe 4-22
April 2008 © 2008 Foundry Networks, Inc. Index-45
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Index-46 © 2008 Foundry Networks, Inc. April 2008